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/*
 * Conditions Of Use
 *
 * This software was developed by employees of the National Institute of
 * Standards and Technology (NIST), an agency of the Federal Government.
 * Pursuant to title 15 Untied States Code Section 105, works of NIST
 * employees are not subject to copyright protection in the United States
 * and are considered to be in the public domain.  As a result, a formal
 * license is not needed to use the software.
 *
 * This software is provided by NIST as a service and is expressly
 * provided "AS IS."  NIST MAKES NO WARRANTY OF ANY KIND, EXPRESS, IMPLIED
 * OR STATUTORY, INCLUDING, WITHOUT LIMITATION, THE IMPLIED WARRANTY OF
 * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE, NON-INFRINGEMENT
 * AND DATA ACCURACY.  NIST does not warrant or make any representations
 * regarding the use of the software or the results thereof, including but
 * not limited to the correctness, accuracy, reliability or usefulness of
 * the software.
 *
 * Permission to use this software is contingent upon your acceptance
 * of the terms of this agreement
 *
 * .
 *
 */
package android.gov.nist.javax.sip.stack;

import android.gov.nist.core.*;
import android.gov.nist.core.net.AddressResolver;
import android.gov.nist.core.net.DefaultNetworkLayer;
import android.gov.nist.core.net.NetworkLayer;
import android.gov.nist.core.net.SecurityManagerProvider;
import android.gov.nist.javax.sip.*;
import android.gov.nist.javax.sip.header.Event;
import android.gov.nist.javax.sip.header.Via;
import android.gov.nist.javax.sip.header.extensions.JoinHeader;
import android.gov.nist.javax.sip.header.extensions.ReplacesHeader;
import android.gov.nist.javax.sip.message.SIPMessage;
import android.gov.nist.javax.sip.message.SIPRequest;
import android.gov.nist.javax.sip.message.SIPResponse;
import android.gov.nist.javax.sip.parser.MessageParserFactory;
import android.gov.nist.javax.sip.stack.timers.SipTimer;

import android.javax.sip.*;
import android.javax.sip.address.Hop;
import android.javax.sip.address.Router;
import android.javax.sip.header.CallIdHeader;
import android.javax.sip.header.EventHeader;
import android.javax.sip.message.Request;
import android.javax.sip.message.Response;
import java.io.IOException;
import java.net.InetAddress;
import java.net.SocketAddress;
import java.net.UnknownHostException;
import java.util.*;
import java.util.concurrent.*;
import java.util.concurrent.atomic.AtomicInteger;

/*
 * Jeff Keyser : architectural suggestions and contributions. Pierre De Rop and Thomas Froment :
 * Bug reports. Jeyashankher < [email protected] > : bug reports. Jeroen van Bemmel : Bug fixes.
 *
 *
 */

/**
 *
 * This is the sip stack. It is essentially a management interface. It manages
 * the resources for the JAIN-SIP implementation. This is the structure that is
 * wrapped by the SipStackImpl.
 *
 * @see android.gov.nist.javax.sip.SipStackImpl
 *
 * @author M. Ranganathan 
* * @version 1.2 $Revision: 1.180 $ $Date: 2010-12-02 22:04:15 $ */ public abstract class SIPTransactionStack implements SIPTransactionEventListener, SIPDialogEventListener { private static StackLogger logger = CommonLogger.getLogger(SIPTransactionStack.class); /* * Number of milliseconds between timer ticks (500). */ public static final int BASE_TIMER_INTERVAL = 500; /* * Connection linger time (seconds) this is the time (in seconds) for which * we linger the TCP connection before closing it. */ // Moved to non constant as part of https://github.com/Mobicents/jain-sip/issues/40 private static int connectionLingerTimer = 8; /* * Dialog Early state timeout duration. */ protected int earlyDialogTimeout = 180; /* * Table of retransmission Alert timers. */ protected ConcurrentHashMap retransmissionAlertTransactions; // Table of early dialogs ( to keep identity mapping ) protected ConcurrentHashMap earlyDialogTable; // Table of dialogs. protected ConcurrentHashMap dialogTable; // Table of server dialogs ( for loop detection) protected ConcurrentHashMap serverDialogMergeTestTable; // A set of methods that result in dialog creations. protected static final Set dialogCreatingMethods = new HashSet(); // Global timer. Use this for all timer tasks. private SipTimer timer; // List of pending server transactions private ConcurrentHashMap pendingTransactions; // hashtable for fast lookup protected ConcurrentHashMap clientTransactionTable; // Set to false if you want hiwat and lowat to be consulted. protected boolean unlimitedServerTransactionTableSize = true; // Set to false if you want unlimited size of client trnansactin table. protected boolean unlimitedClientTransactionTableSize = true; // High water mark for ServerTransaction Table // after which requests are dropped. protected int serverTransactionTableHighwaterMark = 5000; // Low water mark for Server Tx table size after which // requests are selectively dropped protected int serverTransactionTableLowaterMark = 4000; // Hiwater mark for client transaction table. These defaults can be // overriden by stack // configuration. protected int clientTransactionTableHiwaterMark = 1000; // Low water mark for client tx table. protected int clientTransactionTableLowaterMark = 800; private AtomicInteger activeClientTransactionCount = new AtomicInteger(0); // Hashtable for server transactions. protected ConcurrentHashMap serverTransactionTable; // A table of ongoing transactions indexed by mergeId ( for detecting merged // requests. private ConcurrentHashMap mergeTable; private ConcurrentHashMap terminatedServerTransactionsPendingAck; private ConcurrentHashMap forkedClientTransactionTable; protected boolean deliverRetransmittedAckToListener = false; /* * ServerLog is used just for logging stack message tracecs. */ protected ServerLogger serverLogger; /* * We support UDP on this stack. */ boolean udpFlag; /* * Internal router. Use this for all sip: request routing. */ protected DefaultRouter defaultRouter; /* * Global flag that turns logging off */ protected boolean needsLogging; /* * Flag used for testing TI, bypasses filtering of ACK to non-2xx */ private boolean non2XXAckPassedToListener; /* * Class that handles caching of TCP/TLS connections. */ protected IOHandler ioHandler; /* * Flag that indicates that the stack is active. */ protected boolean toExit; /* * Name of the stack. */ protected String stackName; /* * IP address of stack -- this can be re-written by stun. * * @deprecated */ protected String stackAddress; /* * INET address of stack (cached to avoid repeated lookup) * * @deprecated */ protected InetAddress stackInetAddress; /* * Request factory interface (to be provided by the application) */ protected StackMessageFactory sipMessageFactory; /* * Router to determine where to forward the request. */ protected android.javax.sip.address.Router router; /* * Number of pre-allocated threads for processing udp messages. -1 means no * preallocated threads ( dynamically allocated threads). */ protected int threadPoolSize; /* * max number of simultaneous connections. */ protected int maxConnections; /* * Close accept socket on completion. */ protected boolean cacheServerConnections; /* * Close connect socket on Tx termination. */ protected boolean cacheClientConnections; /* * Use the user supplied router for all out of dialog requests. */ protected boolean useRouterForAll; /* * Max size of message that can be read from a TCP connection. */ protected int maxContentLength; /* * Max # of headers that a SIP message can contain. */ protected int maxMessageSize; /* * A collection of message processors. */ private Collection messageProcessors; /* * Read timeout on TCP incoming sockets -- defines the time between reads * for after delivery of first byte of message. */ protected int readTimeout; /* * The socket factory. Can be overriden by applications that want direct * access to the underlying socket. */ protected NetworkLayer networkLayer; /* * Outbound proxy String ( to be handed to the outbound proxy class on * creation). */ protected String outboundProxy; protected String routerPath; // Flag to indicate whether the stack will provide dialog // support. protected boolean isAutomaticDialogSupportEnabled; // The set of events for which subscriptions can be forked. protected HashSet forkedEvents; // Generate a timestamp header for retransmitted requests. protected boolean generateTimeStampHeader; protected AddressResolver addressResolver; // Max time that the listener is allowed to take to respond to a // request. Default is "infinity". This property allows // containers to defend against buggy clients (that do not // want to respond to requests). protected int maxListenerResponseTime; //http://java.net/jira/browse/JSIP-420 // Max time that an INVITE tx is allowed to live in the stack. Default is infinity protected int maxTxLifetimeInvite; // Max time that a Non INVITE tx is allowed to live in the stack. Default is infinity protected int maxTxLifetimeNonInvite; // A flag that indicates whether or not RFC 2543 clients are fully // supported. // If this is set to true, then To tag checking on the Dialog layer is // disabled in a few places - resulting in possible breakage of forked // dialogs. protected boolean rfc2543Supported = true; // / Provides a mechanism for applications to check the health of threads in // the stack protected ThreadAuditor threadAuditor = null; protected LogRecordFactory logRecordFactory; // Set to true if the client CANCEL transaction should be checked before // sending // it out. protected boolean cancelClientTransactionChecked = true; // Is to tag reassignment allowed. protected boolean remoteTagReassignmentAllowed = true; protected boolean logStackTraceOnMessageSend = true; // Receive UDP buffer size protected int receiveUdpBufferSize; // Send UDP buffer size protected int sendUdpBufferSize; private int stackCongestionControlTimeout = 0; protected boolean isBackToBackUserAgent = false; protected boolean checkBranchId; protected boolean isAutomaticDialogErrorHandlingEnabled = true; protected boolean isDialogTerminatedEventDeliveredForNullDialog = false; // Max time for a forked response to arrive. After this time, the original // dialog // is not tracked. If you want to track the original transaction you need to // specify // the max fork time with a stack init property. protected int maxForkTime = 0; // Whether or not to deliver unsolicited NOTIFY private boolean deliverUnsolicitedNotify = false; private boolean deliverTerminatedEventForAck = false; protected boolean patchWebSocketHeaders = false; protected boolean patchRport = false; protected ClientAuthType clientAuth = ClientAuthType.Default; // ThreadPool when parsed SIP messages are processed. Affects the case when many TCP calls use single socket. private int tcpPostParsingThreadPoolSize = 0; // Minimum time between NAT kee alive pings from clients. // Any ping that exceeds this time will result in CRLF CRLF going // from the UDP message channel. protected long minKeepAliveInterval = -1L; // The time after which a "dialog timeout event" is delivered to a listener. protected int dialogTimeoutFactor = 64; // factory used to create MessageParser objects public MessageParserFactory messageParserFactory; // factory used to create MessageProcessor objects public MessageProcessorFactory messageProcessorFactory; public long nioSocketMaxIdleTime; private ReleaseReferencesStrategy releaseReferencesStrategy = ReleaseReferencesStrategy.None; public SIPMessageValve sipMessageValve; public SIPEventInterceptor sipEventInterceptor; protected static ScheduledExecutorService selfRoutingThreadpoolExecutor; private int threadPriority = Thread.MAX_PRIORITY; /* * The socket factory. Can be overriden by applications that want direct * access to the underlying socket. */ protected SecurityManagerProvider securityManagerProvider; /** * Keepalive support and cleanup for client-initiated connections as per RFC 5626. * * Based on the maximum CRLF keep-alive period of 840 seconds, per http://tools.ietf.org/html/rfc5626#section-4.4.1. * a value < 0 means that the RFC 5626 will not be triggered, as a default we don't enable it not to change existing apps behavior. */ protected int reliableConnectionKeepAliveTimeout = -1; private long sslHandshakeTimeout = -1; private boolean sslRenegotiationEnabled = false; protected SocketTimeoutAuditor socketTimeoutAuditor = null; public ScheduledExecutorService getSelfRoutingThreadpoolExecutor() { if(selfRoutingThreadpoolExecutor == null) { if(this.threadPoolSize<=0) { selfRoutingThreadpoolExecutor = new ThreadAffinityExecutor(16); } else { selfRoutingThreadpoolExecutor = new ThreadAffinityExecutor(this.threadPoolSize); } } return selfRoutingThreadpoolExecutor; } /** * Executor used to optimise the ReinviteSender Runnable in the sendRequest * of the SipDialog */ private ExecutorService reinviteExecutor = Executors .newCachedThreadPool(new ThreadFactory() { private int threadCount = 0; public Thread newThread(Runnable pRunnable) { return new Thread(pRunnable, String.format("%s-%d", "ReInviteSender", threadCount++)); } }); // / Timer to regularly ping the thread auditor (on behalf of the timer // thread) protected class PingTimer extends SIPStackTimerTask { // / Timer thread handle ThreadAuditor.ThreadHandle threadHandle; // / Constructor public PingTimer(ThreadAuditor.ThreadHandle a_oThreadHandle) { threadHandle = a_oThreadHandle; } @Override public Object getThreadHash() { return null; } public void runTask() { // Check if we still have a timer (it may be null after shutdown) if (getTimer() != null) { // Register the timer task if we haven't done so // Contribution for https://github.com/Mobicents/jain-sip/issues/39 if (threadHandle == null && getThreadAuditor() != null) { // This happens only once since the thread handle is passed // to the next scheduled ping timer threadHandle = getThreadAuditor().addCurrentThread(); } // Let the thread auditor know that the timer task is alive threadHandle.ping(); // Schedule the next ping getTimer().schedule(new PingTimer(threadHandle), threadHandle.getPingIntervalInMillisecs()); } } } class RemoveForkedTransactionTimerTask extends SIPStackTimerTask { private final String forkId; public RemoveForkedTransactionTimerTask(String forkId) { this.forkId = forkId; } @Override public Object getThreadHash() { return null; } @Override public void runTask() { if (logger.isLoggingEnabled(LogWriter.TRACE_DEBUG)) { logger.logDebug( "Removing forked client transaction : forkId = " + forkId); } forkedClientTransactionTable.remove(forkId); } } static { // Standard set of methods that create dialogs. dialogCreatingMethods.add(Request.REFER); dialogCreatingMethods.add(Request.INVITE); dialogCreatingMethods.add(Request.SUBSCRIBE); } /** * Default constructor. */ protected SIPTransactionStack() { this.toExit = false; this.forkedEvents = new HashSet(); // set of events for which subscriptions can be forked. // Set an infinite thread pool size. this.threadPoolSize = -1; // Close response socket after infinte time. // for max performance this.cacheServerConnections = true; // Close the request socket after infinite time. // for max performance this.cacheClientConnections = true; // Max number of simultaneous connections. this.maxConnections = -1; // Array of message processors. // jeand : using concurrent data structure to avoid excessive blocking messageProcessors = new CopyOnWriteArrayList(); // Handle IO for this process. this.ioHandler = new IOHandler(this); // The read time out is infinite. this.readTimeout = -1; this.maxListenerResponseTime = -1; // The default (identity) address lookup scheme this.addressResolver = new DefaultAddressResolver(); // Notify may or may not create a dialog. This is handled in // the code. // Create the transaction collections // Dialog dable. this.dialogTable = new ConcurrentHashMap(); this.earlyDialogTable = new ConcurrentHashMap(); this.serverDialogMergeTestTable = new ConcurrentHashMap(); clientTransactionTable = new ConcurrentHashMap(); serverTransactionTable = new ConcurrentHashMap(); this.terminatedServerTransactionsPendingAck = new ConcurrentHashMap(); mergeTable = new ConcurrentHashMap(); retransmissionAlertTransactions = new ConcurrentHashMap(); // Start the timer event thread. // this.timer = new DefaultTimer(); this.pendingTransactions = new ConcurrentHashMap(); this.forkedClientTransactionTable = new ConcurrentHashMap(); } /** * Re Initialize the stack instance. */ protected void reInit() { if (logger.isLoggingEnabled(LogWriter.TRACE_DEBUG)) logger.logDebug("Re-initializing !"); // Array of message processors. messageProcessors = new CopyOnWriteArrayList(); // Handle IO for this process. this.ioHandler = new IOHandler(this); pendingTransactions = new ConcurrentHashMap(); clientTransactionTable = new ConcurrentHashMap(); serverTransactionTable = new ConcurrentHashMap(); retransmissionAlertTransactions = new ConcurrentHashMap(); mergeTable = new ConcurrentHashMap(); // Dialog dable. this.dialogTable = new ConcurrentHashMap(); this.earlyDialogTable = new ConcurrentHashMap(); this.serverDialogMergeTestTable = new ConcurrentHashMap(); this.terminatedServerTransactionsPendingAck = new ConcurrentHashMap(); this.forkedClientTransactionTable = new ConcurrentHashMap(); // this.timer = new DefaultTimer(); this.activeClientTransactionCount = new AtomicInteger(0); } /** * Creates and binds, if necessary, a socket connected to the specified * destination address and port and then returns its local address. * * @param dst the destination address that the socket would need to connect * to. * @param dstPort the port number that the connection would be established * with. * @param localAddress the address that we would like to bind on (null for * the "any" address). * @param localPort the port that we'd like our socket to bind to (0 for a * random port). * * @return the SocketAddress that this handler would use when connecting to * the specified destination address and port. * * @throws IOException if binding the socket fails */ public SocketAddress getLocalAddressForTcpDst(InetAddress dst, int dstPort, InetAddress localAddress, int localPort) throws IOException { if (getMessageProcessorFactory() instanceof NioMessageProcessorFactory) { // First find the TLS message processor MessageProcessor[] processors = getMessageProcessors(); for (MessageProcessor processor : processors){ if ("TCP".equals(processor.getTransport())) { NioTcpMessageChannel msgChannel = (NioTcpMessageChannel) processor.createMessageChannel(dst, dstPort); return msgChannel.socketChannel.socket().getLocalSocketAddress(); } } return null; } return this.ioHandler.getLocalAddressForTcpDst( dst, dstPort, localAddress, localPort); } /** * Creates and binds, if necessary, a TCP SSL socket connected to the * specified destination address and port and then returns its local * address. * * @param dst the destination address that the socket would need to connect * to. * @param dstPort the port number that the connection would be established * with. * @param localAddress the address that we would like to bind on * (null for the "any" address). * * @return the SocketAddress that this handler would use when connecting to * the specified destination address and port. * * @throws IOException if binding the socket fails */ public SocketAddress getLocalAddressForTlsDst( InetAddress dst, int dstPort, InetAddress localAddress) throws IOException { // First find the TLS message processor MessageProcessor[] processors = getMessageProcessors(); for (MessageProcessor processor : processors){ if(processor instanceof TLSMessageProcessor){ // Here we don't create the channel but if the channel is already // existing will be returned TLSMessageChannel msgChannel = (TLSMessageChannel) processor.createMessageChannel(dst, dstPort); return this.ioHandler.getLocalAddressForTlsDst( dst, dstPort, localAddress, msgChannel); } else if(processor instanceof NioTlsMessageProcessor) { NioTlsMessageChannel msgChannel = (NioTlsMessageChannel) processor.createMessageChannel(dst, dstPort); return msgChannel.socketChannel.socket().getLocalSocketAddress(); } } return null; } /** * For debugging -- allows you to disable logging or enable logging * selectively. * * */ public void disableLogging() { this.logger.disableLogging(); } /** * Globally enable message logging ( for debugging) * */ public void enableLogging() { this.logger.enableLogging(); } /** * Print the dialog table. * */ public void printDialogTable() { if (logger.isLoggingEnabled(LogWriter.TRACE_DEBUG)) { this.logger.logDebug( "dialog table = " + this.dialogTable); } } /** * Retrieve a transaction from our table of transactions with pending * retransmission alerts. * * @param dialogId * @return -- the RetransmissionAlert enabled transaction corresponding to * the given dialog ID. */ public SIPServerTransaction getRetransmissionAlertTransaction( String dialogId) { return (SIPServerTransaction) this.retransmissionAlertTransactions .get(dialogId); } /** * Return true if extension is supported. * * @return true if extension is supported and false otherwise. */ public static boolean isDialogCreated(String method) { return dialogCreatingMethods.contains(method); } /** * Add an extension method. * * @param extensionMethod * -- extension method to support for dialog creation */ public void addExtensionMethod(String extensionMethod) { if (extensionMethod.equals(Request.NOTIFY)) { if (logger.isLoggingEnabled(LogWriter.TRACE_DEBUG)) logger.logDebug("NOTIFY Supported Natively"); } else { dialogCreatingMethods.add(Utils.toUpperCase(extensionMethod.trim())); } } /** * Put a dialog into the dialog table. * * @param dialog * -- dialog to put into the dialog table. * */ public SIPDialog putDialog(SIPDialog dialog) { String dialogId = dialog.getDialogId(); if (dialogTable.containsKey(dialogId)) { if (logger.isLoggingEnabled(LogWriter.TRACE_DEBUG)) { logger .logDebug("putDialog: dialog already exists" + dialogId + " in table = " + dialogTable.get(dialogId)); } return dialogTable.get(dialogId); } if (logger.isLoggingEnabled(LogWriter.TRACE_DEBUG)) { logger.logDebug("putDialog dialogId=" + dialogId + " dialog = " + dialog); } dialog.setStack(this); if (logger.isLoggingEnabled(LogLevels.TRACE_DEBUG)) logger.logStackTrace(); dialogTable.put(dialogId, dialog); putMergeDialog(dialog); return dialog; } /** * Create a dialog and add this transaction to it. * * @param transaction * -- tx to add to the dialog. * @return the newly created Dialog. */ /** * Create a dialog and add this transaction to it. * * @param transaction * -- tx to add to the dialog. * @return the newly created Dialog. */ public SIPDialog createDialog(SIPTransaction transaction) { SIPDialog retval = null; if (transaction instanceof SIPClientTransaction) { String dialogId = ((SIPRequest) transaction.getRequest()) .getDialogId(false); if (logger.isLoggingEnabled(LogLevels.TRACE_DEBUG)) { logger.logDebug("createDialog dialogId=" + dialogId); } if (this.earlyDialogTable.get(dialogId) != null) { SIPDialog dialog = this.earlyDialogTable.get(dialogId); if (dialog.getState() == null || dialog.getState() == DialogState.EARLY) { retval = dialog; if (logger.isLoggingEnabled(LogLevels.TRACE_DEBUG)) { logger.logDebug("createDialog early Dialog found : earlyDialogId=" + dialogId + " earlyDialog= " + dialog); } } else { retval = new SIPDialog(transaction); this.earlyDialogTable.put(dialogId, retval); } } else { retval = new SIPDialog(transaction); this.earlyDialogTable.put(dialogId, retval); if (logger.isLoggingEnabled(LogLevels.TRACE_DEBUG)) { logger.logDebug("createDialog early Dialog not found : earlyDialogId=" + dialogId + " created one " + retval); } } } else { retval = new SIPDialog(transaction); } return retval; } /** * Create a Dialog given a client tx and response. * * @param transaction * @param sipResponse * @return */ public SIPDialog createDialog(SIPClientTransaction transaction, SIPResponse sipResponse) { String originalDialogId = ((SIPRequest)transaction.getRequest()).getDialogId(false); String earlyDialogId = sipResponse.getDialogId(false); if (logger.isLoggingEnabled(LogLevels.TRACE_DEBUG)) { logger.logDebug("createDialog originalDialogId=" + originalDialogId); logger.logDebug("createDialog earlyDialogId=" + earlyDialogId); logger.logDebug("createDialog default Dialog=" + transaction.getDefaultDialog()); if(transaction.getDefaultDialog() != null) { logger.logDebug("createDialog default Dialog Id=" + transaction.getDefaultDialog().getDialogId()); } } SIPDialog retval = null; SIPDialog earlyDialog = this.earlyDialogTable.get(originalDialogId); if (earlyDialog != null && transaction != null && (transaction.getDefaultDialog() == null || transaction.getDefaultDialog().getDialogId().equals(originalDialogId))) { retval = earlyDialog; if (logger.isLoggingEnabled(LogLevels.TRACE_DEBUG)) { logger.logDebug("createDialog early Dialog found : earlyDialogId=" + originalDialogId + " earlyDialog= " + retval); } if (sipResponse.isFinalResponse()) { this.earlyDialogTable.remove(originalDialogId); } } else { retval = new SIPDialog(transaction, sipResponse); if (logger.isLoggingEnabled(LogLevels.TRACE_DEBUG)) { logger.logDebug("createDialog early Dialog not found : earlyDialogId=" + earlyDialogId + " created one " + retval); } } return retval; } /** * Create a Dialog given a sip provider and response. * * @param sipProvider * @param sipResponse * @return */ public SIPDialog createDialog(SipProviderImpl sipProvider, SIPResponse sipResponse) { return new SIPDialog(sipProvider, sipResponse); } /** * Creates a new dialog based on a received NOTIFY. The dialog state is * initialized appropriately. The NOTIFY differs in the From tag * * Made this a separate method to clearly distinguish what's happening here * - this is a non-trivial case * * @param subscribeTx * - the transaction started with the SUBSCRIBE that we sent * @param notifyST * - the ServerTransaction created for an incoming NOTIFY * @return -- a new dialog created from the subscribe original SUBSCRIBE * transaction. * * */ public SIPDialog createDialog(SIPClientTransaction subscribeTx, SIPTransaction notifyST) { return new SIPDialog(subscribeTx, notifyST); } /** * Remove the dialog from the dialog table. * * @param dialog * -- dialog to remove. */ public void removeDialog(SIPDialog dialog) { String id = dialog.getDialogId(); String earlyId = dialog.getEarlyDialogId(); if (earlyId != null) { this.earlyDialogTable.remove(earlyId); this.dialogTable.remove(earlyId); } removeMergeDialog(dialog.getMergeId()); if (id != null) { // FHT: Remove dialog from table only if its associated dialog is // the same as the one // specified Object old = this.dialogTable.get(id); if (old == dialog) { this.dialogTable.remove(id); } // We now deliver DTE even when the dialog is not originally present // in the Dialog // Table // This happens before the dialog state is assigned. if (!dialog.testAndSetIsDialogTerminatedEventDelivered()) { DialogTerminatedEvent event = new DialogTerminatedEvent(dialog .getSipProvider(), dialog); // Provide notification to the listener that the dialog has // ended. dialog.getSipProvider().handleEvent(event, null); } } else if ( this.isDialogTerminatedEventDeliveredForNullDialog ) { if (!dialog.testAndSetIsDialogTerminatedEventDelivered()) { DialogTerminatedEvent event = new DialogTerminatedEvent(dialog .getSipProvider(), dialog); // Provide notification to the listener that the dialog has // ended. dialog.getSipProvider().handleEvent(event, null); } } } public SIPDialog getEarlyDialog(String dialogId) { SIPDialog sipDialog = (SIPDialog) earlyDialogTable.get(dialogId); if (logger.isLoggingEnabled(LogWriter.TRACE_DEBUG)) { logger.logDebug("getEarlyDialog(" + dialogId + ") : returning " + sipDialog); } return sipDialog; } protected void removeMergeDialog(String mergeId) { if(mergeId != null) { if (logger.isLoggingEnabled(LogWriter.TRACE_DEBUG)) { logger.logDebug("Tyring to remove Dialog from serverDialogMerge table with Merge Dialog Id " + mergeId); } SIPDialog sipDialog = serverDialogMergeTestTable.remove(mergeId); if (logger.isLoggingEnabled(LogWriter.TRACE_DEBUG) && sipDialog != null) { logger.logDebug("removed Dialog " + sipDialog + " from serverDialogMerge table with Merge Dialog Id " + mergeId); } } } protected void putMergeDialog(SIPDialog sipDialog) { if(sipDialog != null) { String mergeId = sipDialog.getMergeId(); if(mergeId != null) { serverDialogMergeTestTable.put(mergeId, sipDialog); if (logger.isLoggingEnabled(LogWriter.TRACE_DEBUG)) { logger.logDebug("put Dialog " + sipDialog + " in serverDialogMerge table with Merge Dialog Id " + mergeId); } } } } /** * Return the dialog for a given dialog ID. If compatibility is enabled then * we do not assume the presence of tags and hence need to add a flag to * indicate whether this is a server or client transaction. * * @param dialogId * is the dialog id to check. */ public SIPDialog getDialog(String dialogId) { SIPDialog sipDialog = (SIPDialog) dialogTable.get(dialogId); if (logger.isLoggingEnabled(LogWriter.TRACE_DEBUG)) { logger.logDebug("getDialog(" + dialogId + ") : returning " + sipDialog); } return sipDialog; } /** * Remove the dialog given its dialog id. This is used for dialog id * re-assignment only. * * @param dialogId * is the dialog Id to remove. */ public void removeDialog(String dialogId) { if (logger.isLoggingEnabled()) { logger.logWarning("Silently removing dialog from table"); } dialogTable.remove(dialogId); } /** * Find a matching client SUBSCRIBE to the incoming notify. NOTIFY requests * are matched to such SUBSCRIBE requests if they contain the same * "Call-ID", a "To" header "tag" parameter which matches the "From" header * "tag" parameter of the SUBSCRIBE, and the same "Event" header field. * Rules for comparisons of the "Event" headers are described in section * 7.2.1. If a matching NOTIFY request contains a "Subscription-State" of * "active" or "pending", it creates a new subscription and a new dialog * (unless they have already been created by a matching response, as * described above). * * Due to different app chaining scenarios (ie B2BUA to Proxy), the RFC matching * is not enough alone. It maybe several transactions matches the defined * criteria. For that reason, some complementary conditions are included. These * conditions will be used as a way to prioritize two matched transactions. In case, * just one transaction matches the RFC criteria, these additional conditions * will be ignored, and the regular logic will be used. Additional conditions are * to match notMsg.reqURI with ct.origReq.contact, and prefer transactions with dialogs. * See https://github.com/RestComm/jain-sip/issues/60 for more info. * Complementary are also used to stop the searching, and return the matched tx. This * is because we are iterating the whole client transaction table, which may be * big effort. * * @param notifyMessage * @return -- the matching ClientTransaction with semaphore aquired or null * if no such client transaction can be found. */ public SIPClientTransaction findSubscribeTransaction( SIPRequest notifyMessage, ListeningPointImpl listeningPoint) { SIPClientTransaction retval = null; try { //https://github.com/RestComm/jain-sip/issues/60 //take into account dialogId, so we can try and match the proper TX String dialogId = notifyMessage.getDialogId(true); Iterator it = clientTransactionTable.values().iterator(); if (logger.isLoggingEnabled(LogWriter.TRACE_DEBUG)) { logger.logDebug("ct table size = " + clientTransactionTable.size()); } String thisToTag = notifyMessage.getTo().getTag(); if (thisToTag == null) { return retval; } Event eventHdr = (Event) notifyMessage.getHeader(EventHeader.NAME); if (eventHdr == null) { if (logger.isLoggingEnabled(LogWriter.TRACE_DEBUG)) { logger .logDebug("event Header is null -- returning null"); } return retval; } while (it.hasNext()) { SIPClientTransaction ct = (SIPClientTransaction) it.next(); if (!ct.getMethod().equals(Request.SUBSCRIBE)) continue; // if ( sipProvider.getListeningPoint(transport) == null) String fromTag = ct.getOriginalRequestFromTag(); Event hisEvent = (Event) ct.getOriginalRequestEvent(); // Event header is mandatory but some slopply clients // dont include it. if (hisEvent == null) continue; if (logger.isLoggingEnabled(LogWriter.TRACE_DEBUG)) { logger.logDebug("ct.fromTag = " + fromTag); logger.logDebug("thisToTag = " + thisToTag); logger.logDebug("hisEvent = " + hisEvent); logger.logDebug("eventHdr " + eventHdr); logger.logDebug("ct.req.contact = " + ct.getOriginalRequestContact()); if (ct.getOriginalRequest() != null) logger.logDebug("ct.req.reqURI = " + ct.getOriginalRequest().getRequestURI()); logger.logDebug("msg.Contact= " + notifyMessage.getContactHeader()); logger.logDebug("msg.reqURI " + notifyMessage.getRequestURI()); } if ( fromTag.equalsIgnoreCase(thisToTag) && hisEvent != null && eventHdr.match(hisEvent) && notifyMessage.getCallId().getCallId().equalsIgnoreCase( ct.getOriginalRequestCallId())) { if (!this.isDeliverUnsolicitedNotify() ) { ct.acquireSem(); } if (retval == null) { //take first matching tx, just in case retval = ct; } //https://github.com/RestComm/jain-sip/issues/60 //Now check complementary conditions, to override selected ct, and break if (notifyMessage.getRequestURI().equals(ct.getOriginalRequest().getContactHeader().getAddress().getURI()) && (ct.getDefaultDialog() != null || ct.getDialog(dialogId) != null)){ if (logger.isLoggingEnabled(LogWriter.TRACE_DEBUG)) { logger.logDebug("Tx compl conditions met." + ct); } retval = ct; break; } } } return retval; } finally { if (logger.isLoggingEnabled(LogWriter.TRACE_DEBUG)) logger.logDebug("findSubscribeTransaction : returning " + retval); } } /** * Add entry to "Transaction Pending ACK" table. * * @param serverTransaction */ public void addTransactionPendingAck(SIPServerTransaction serverTransaction) { String branchId = ((SIPRequest) serverTransaction.getRequest()) .getTopmostVia().getBranch(); if ( branchId != null ) { this.terminatedServerTransactionsPendingAck.put(branchId, serverTransaction); } } /** * Get entry in the server transaction pending ACK table corresponding to an * ACK. * * @param ackMessage * @return */ public SIPServerTransaction findTransactionPendingAck(SIPRequest ackMessage) { return this.terminatedServerTransactionsPendingAck.get(ackMessage .getTopmostVia().getBranch()); } /** * Remove entry from "Transaction Pending ACK" table. * * @param serverTransaction * @return */ public boolean removeTransactionPendingAck(SIPServerTransaction serverTransaction) { // String branchId = ((SIPRequest)serverTransaction.getRequest()).getTopmostVia().getBranch(); String branchId = serverTransaction.getBranchId(); if ( branchId != null && this.terminatedServerTransactionsPendingAck. containsKey(branchId) ) { this.terminatedServerTransactionsPendingAck.remove(branchId); return true; } else { return false; } } /** * Check if this entry exists in the "Transaction Pending ACK" table. * * @param serverTransaction * @return */ public boolean isTransactionPendingAck( SIPServerTransaction serverTransaction) { String branchId = ((SIPRequest) serverTransaction.getRequest()) .getTopmostVia().getBranch(); return this.terminatedServerTransactionsPendingAck.contains(branchId); } /** * Find the transaction corresponding to a given request. * * @param sipMessage * request for which to retrieve the transaction. * * @param isServer * search the server transaction table if true. * * @return the transaction object corresponding to the request or null if no * such mapping exists. */ public SIPTransaction findTransaction(SIPMessage sipMessage, boolean isServer) { SIPTransaction retval = null; try { if (isServer) { Via via = sipMessage.getTopmostVia(); if (via.getBranch() != null) { String key = sipMessage.getTransactionId(); retval = (SIPTransaction) serverTransactionTable.get(key); if (logger.isLoggingEnabled(LogWriter.TRACE_DEBUG)) logger .logDebug( "serverTx: looking for key " + key + " existing=" + serverTransactionTable); if (key .startsWith(SIPConstants.BRANCH_MAGIC_COOKIE_LOWER_CASE)) { return retval; } } // Need to scan the table for old style transactions (RFC 2543 // style) Iterator it = serverTransactionTable .values().iterator(); while (it.hasNext()) { SIPServerTransaction sipServerTransaction = (SIPServerTransaction) it .next(); if (sipServerTransaction .isMessagePartOfTransaction(sipMessage)) { retval = sipServerTransaction; return retval; } } } else { Via via = sipMessage.getTopmostVia(); if (via.getBranch() != null) { String key = sipMessage.getTransactionId(); if (logger.isLoggingEnabled(LogWriter.TRACE_DEBUG)) logger.logDebug( "clientTx: looking for key " + key); retval = (SIPTransaction) clientTransactionTable.get(key); if (key .startsWith(SIPConstants.BRANCH_MAGIC_COOKIE_LOWER_CASE)) { return retval; } } // Need to scan the table for old style transactions (RFC 2543 // style). This is terribly slow but we need to do this // for backasswords compatibility. Iterator it = clientTransactionTable .values().iterator(); while (it.hasNext()) { SIPClientTransaction clientTransaction = (SIPClientTransaction) it .next(); if (clientTransaction .isMessagePartOfTransaction(sipMessage)) { retval = clientTransaction; return retval; } } } } finally { if (logger.isLoggingEnabled(LogWriter.TRACE_DEBUG)) { logger.logDebug( "findTransaction: returning : " + retval); } } return retval; } public SIPTransaction findTransaction(String transactionId, boolean isServer) { if(isServer) { return serverTransactionTable.get(transactionId); } else { return clientTransactionTable.get(transactionId); } } /** * Get the transaction to cancel. Search the server transaction table for a * transaction that matches the given transaction. */ public SIPTransaction findCancelTransaction(SIPRequest cancelRequest, boolean isServer) { if (logger.isLoggingEnabled(LogWriter.TRACE_DEBUG)) { logger.logDebug("findCancelTransaction request= \n" + cancelRequest + "\nfindCancelRequest isServer=" + isServer); } if (isServer) { Iterator li = this.serverTransactionTable .values().iterator(); while (li.hasNext()) { SIPTransaction transaction = (SIPTransaction) li.next(); SIPServerTransaction sipServerTransaction = (SIPServerTransaction) transaction; if (sipServerTransaction .doesCancelMatchTransaction(cancelRequest)) return sipServerTransaction; } } else { Iterator li = this.clientTransactionTable .values().iterator(); while (li.hasNext()) { SIPTransaction transaction = (SIPTransaction) li.next(); SIPClientTransaction sipClientTransaction = (SIPClientTransaction) transaction; if (sipClientTransaction .doesCancelMatchTransaction(cancelRequest)) return sipClientTransaction; } } if (logger.isLoggingEnabled(LogWriter.TRACE_DEBUG)) logger .logDebug("Could not find transaction for cancel request"); return null; } /** * Construcor for the stack. Registers the request and response factories * for the stack. * * @param messageFactory * User-implemented factory for processing messages. */ protected SIPTransactionStack(StackMessageFactory messageFactory) { this(); this.sipMessageFactory = messageFactory; } /** * Finds a pending server transaction. Since each request may be handled * either statefully or statelessly, we keep a map of pending transactions * so that a duplicate transaction is not created if a second request is * recieved while the first one is being processed. * * @param requestReceived * @return -- the pending transaction or null if no such transaction exists. */ public SIPServerTransaction findPendingTransaction( String transactionId) { if (this.logger.isLoggingEnabled(LogWriter.TRACE_DEBUG)) { this.logger.logDebug("looking for pending tx for :" + transactionId); } return (SIPServerTransaction) pendingTransactions.get(transactionId); } /** * See if there is a pending transaction with the same Merge ID as the Merge * ID obtained from the SIP Request. The Merge table is for handling the * following condition: If the request has no tag in the To header field, * the UAS core MUST check the request against ongoing transactions. If the * From tag, Call-ID, and CSeq exactly match those associated with an * ongoing transaction, but the request does not match that transaction * (based on the matching rules in Section 17.2.3), the UAS core SHOULD * generate a 482 (Loop Detected) response and pass it to the server * transaction. */ public boolean findMergedTransaction(SIPRequest sipRequest) { if (!sipRequest.getMethod().equals(Request.INVITE)) { /* * Dont need to worry about request merging for Non-INVITE * transactions. */ return false; } String mergeId = sipRequest.getMergeId(); if (mergeId != null) { SIPServerTransaction mergedTransaction = (SIPServerTransaction) this.mergeTable .get(mergeId); if (mergedTransaction != null && !mergedTransaction .isMessagePartOfTransaction(sipRequest)) { if(logger.isLoggingEnabled(LogLevels.TRACE_DEBUG)) { logger.logDebug("Mathcing merged transaction for merge id " + mergeId + " with "+ mergedTransaction); } return true; }else { /* * Check for loop detection for really late arriving * requests */ SIPDialog serverDialog = this.serverDialogMergeTestTable .get(mergeId); if (serverDialog != null && serverDialog.firstTransactionIsServerTransaction && serverDialog.getState() == DialogState.CONFIRMED) { if(logger.isLoggingEnabled(LogLevels.TRACE_DEBUG)) { logger.logDebug("Mathcing merged dialog for merge id " + mergeId + " with "+ serverDialog); } return true; } } } return false; } /** * Remove a pending Server transaction from the stack. This is called after * the user code has completed execution in the listener. * * @param tr * -- pending transaction to remove. */ public void removePendingTransaction(SIPServerTransaction tr) { if (this.logger.isLoggingEnabled(LogWriter.TRACE_DEBUG)) { this.logger.logDebug("removePendingTx: " + tr.getTransactionId()); } this.pendingTransactions.remove(tr.getTransactionId()); } /** * Remove a transaction from the merge table. * * @param tr * -- the server transaction to remove from the merge table. * */ public void removeFromMergeTable(SIPServerTransaction tr) { if (logger.isLoggingEnabled(LogWriter.TRACE_DEBUG)) { logger.logDebug("Removing tx from merge table "); } // http://java.net/jira/browse/JSIP-429 // get the merge id from the tx instead of the request to avoid reparsing on aggressive cleanup String key = tr.getMergeId(); if (key != null) { this.mergeTable.remove(key); } } /** * Put this into the merge request table. * * @param sipTransaction * -- transaction to put into the merge table. * */ public void putInMergeTable(SIPServerTransaction sipTransaction, SIPRequest sipRequest) { String mergeKey = sipRequest.getMergeId(); if (mergeKey != null) { this.mergeTable.put(mergeKey, sipTransaction); } } /** * Map a Server transaction (possibly sending out a 100 if the server tx is * an INVITE). This actually places it in the hash table and makes it known * to the stack. * * @param transaction * -- the server transaction to map. */ public void mapTransaction(SIPServerTransaction transaction) { if (transaction.isTransactionMapped()) return; addTransactionHash(transaction); // transaction.startTransactionTimer(); transaction.setTransactionMapped(true); } /** * Handles a new SIP request. It finds a server transaction to handle this * message. If none exists, it creates a new transaction. * * @param requestReceived * Request to handle. * @param requestMessageChannel * Channel that received message. * * @return A server transaction. */ public ServerRequestInterface newSIPServerRequest( SIPRequest requestReceived, MessageChannel requestMessageChannel) { // Next transaction in the set SIPServerTransaction nextTransaction; final String key = requestReceived.getTransactionId(); requestReceived.setMessageChannel(requestMessageChannel); if(sipMessageValve != null) { // https://java.net/jira/browse/JSIP-511 // catching all exceptions so it doesn't make JAIN SIP to fail try { if(logger.isLoggingEnabled(LogWriter.TRACE_DEBUG)) { logger.logDebug( "Checking SIP message valve " + sipMessageValve + " for Request = " + requestReceived.getFirstLine()); } if(!sipMessageValve.processRequest( requestReceived, requestMessageChannel)) { if(logger.isLoggingEnabled(LogWriter.TRACE_DEBUG)) { logger.logDebug( "Request dropped by the SIP message valve. Request = " + requestReceived); } return null; } } catch(Exception e) { if(logger.isLoggingEnabled(LogWriter.TRACE_ERROR)) { logger.logError( "An issue happening the valve on request " + requestReceived + " thus the message will not be processed further", e); } return null; } } // Transaction to handle this request SIPServerTransaction currentTransaction = (SIPServerTransaction) findTransaction(key, true); // Got to do this for bacasswards compatibility. if (currentTransaction == null || !currentTransaction .isMessagePartOfTransaction(requestReceived)) { // Loop through all server transactions currentTransaction = null; if (!key.toLowerCase().startsWith( SIPConstants.BRANCH_MAGIC_COOKIE_LOWER_CASE)) { Iterator transactionIterator = serverTransactionTable.values().iterator(); while (transactionIterator.hasNext() && currentTransaction == null) { nextTransaction = (SIPServerTransaction) transactionIterator .next(); // If this transaction should handle this request, if (nextTransaction .isMessagePartOfTransaction(requestReceived)) { // Mark this transaction as the one // to handle this message currentTransaction = nextTransaction; } } } // If no transaction exists to handle this message if (currentTransaction == null) { currentTransaction = findPendingTransaction(key); if (currentTransaction != null) { // Associate the tx with the received request. requestReceived.setTransaction(currentTransaction); if (currentTransaction.acquireSem()) return currentTransaction; else return null; } // Creating a new server tx. May fail under heavy load. currentTransaction = createServerTransaction(requestMessageChannel); if (currentTransaction != null) { // currentTransaction.setPassToListener(); currentTransaction.setOriginalRequest(requestReceived); // Associate the tx with the received request. requestReceived.setTransaction(currentTransaction); } } } // Set ths transaction's encapsulated request // interface from the superclass if (logger.isLoggingEnabled(LogWriter.TRACE_DEBUG)) { logger.logDebug("newSIPServerRequest( " + requestReceived.getMethod() + ":" + requestReceived.getTopmostVia().getBranch() + "):" + currentTransaction); } if (currentTransaction != null) currentTransaction.setRequestInterface(sipMessageFactory .newSIPServerRequest(requestReceived, currentTransaction)); if (currentTransaction != null && currentTransaction.acquireSem()) { return currentTransaction; } else if (currentTransaction != null) { try { /* * Already processing a message for this transaction. SEND a * trying ( message already being processed ). */ if (currentTransaction .isMessagePartOfTransaction(requestReceived) && currentTransaction.getMethod().equals( requestReceived.getMethod())) { SIPResponse trying = requestReceived .createResponse(Response.TRYING); trying.removeContent(); currentTransaction.getMessageChannel().sendMessage(trying); } } catch (Exception ex) { if (logger.isLoggingEnabled()) logger.logError("Exception occured sending TRYING"); } return null; } else { return null; } } /** * Handles a new SIP response. It finds a client transaction to handle this * message. If none exists, it sends the message directly to the superclass. * * @param responseReceived * Response to handle. * @param responseMessageChannel * Channel that received message. * * @return A client transaction. */ public ServerResponseInterface newSIPServerResponse( SIPResponse responseReceived, MessageChannel responseMessageChannel) { // Iterator through all client transactions Iterator transactionIterator; // Next transaction in the set SIPClientTransaction nextTransaction; // Transaction to handle this request SIPClientTransaction currentTransaction; if(sipMessageValve != null) { // https://java.net/jira/browse/JSIP-511 // catching all exceptions so it doesn't make JAIN SIP to fail try { if(!sipMessageValve.processResponse( responseReceived, responseMessageChannel)) { if(logger.isLoggingEnabled(LogWriter.TRACE_DEBUG)) { logger.logDebug( "Response dropped by the SIP message valve. Response = " + responseReceived); } return null; } } catch(Exception e) { if(logger.isLoggingEnabled(LogWriter.TRACE_ERROR)) { logger.logError( "An issue happening the valve on response " + responseReceived + " thus the message will not be processed further", e); } return null; } } String key = responseReceived.getTransactionId(); // Note that for RFC 3261 compliant operation, this lookup will // return a tx if one exists and hence no need to search through // the table. currentTransaction = (SIPClientTransaction) findTransaction(key, false); if (currentTransaction == null || (!currentTransaction .isMessagePartOfTransaction(responseReceived) && !key .startsWith(SIPConstants.BRANCH_MAGIC_COOKIE_LOWER_CASE))) { // Loop through all client transactions transactionIterator = clientTransactionTable.values().iterator(); currentTransaction = null; while (transactionIterator.hasNext() && currentTransaction == null) { nextTransaction = (SIPClientTransaction) transactionIterator .next(); // If this transaction should handle this request, if (nextTransaction .isMessagePartOfTransaction(responseReceived)) { // Mark this transaction as the one to // handle this message currentTransaction = nextTransaction; } } // If no transaction exists to handle this message, if (currentTransaction == null) { // JvB: Need to log before passing the response to the client // app, it // gets modified! if (this.logger.isLoggingEnabled(StackLogger.TRACE_INFO)) { responseMessageChannel.logResponse(responseReceived, System .currentTimeMillis(), "before processing"); } // Pass the message directly to the TU return sipMessageFactory.newSIPServerResponse(responseReceived, responseMessageChannel); } } // Aquire the sem -- previous request may still be processing. boolean acquired = currentTransaction.acquireSem(); // Set ths transaction's encapsulated response interface // from the superclass if (this.logger.isLoggingEnabled(StackLogger.TRACE_INFO)) { currentTransaction.getMessageChannel().logResponse(responseReceived, System .currentTimeMillis(), "before processing"); } if (acquired) { ServerResponseInterface sri = sipMessageFactory .newSIPServerResponse(responseReceived, currentTransaction.getMessageChannel()); if (sri != null) { currentTransaction.setResponseInterface(sri); } else { if (this.logger.isLoggingEnabled(LogWriter.TRACE_DEBUG)) { this.logger .logDebug("returning null - serverResponseInterface is null!"); } currentTransaction.releaseSem(); return null; } } else { if (logger.isLoggingEnabled(LogWriter.TRACE_DEBUG)) this.logger.logDebug("Could not aquire semaphore !!"); } if (acquired) return currentTransaction; else return null; } /** * Creates a client transaction to handle a new request. Gets the real * message channel from the superclass, and then creates a new client * transaction wrapped around this channel. * * @param nextHop * Hop to create a channel to contact. */ public MessageChannel createMessageChannel(SIPRequest request, MessageProcessor mp, Hop nextHop) throws IOException { // Create a new client transaction around the // superclass' message channel // Create the host/port of the target hop Host targetHost = new Host(); targetHost.setHostname(nextHop.getHost()); HostPort targetHostPort = new HostPort(); targetHostPort.setHost(targetHost); targetHostPort.setPort(nextHop.getPort()); MessageChannel returnChannel = mp.createMessageChannel(targetHostPort); return returnChannel; } /** * Creates a client transaction that encapsulates a MessageChannel. Useful * for implementations that want to subclass the standard * * @param encapsulatedMessageChannel * Message channel of the transport layer. */ public SIPClientTransaction createClientTransaction(SIPRequest sipRequest, MessageChannel encapsulatedMessageChannel) { SIPClientTransaction ct = new SIPClientTransactionImpl(this, encapsulatedMessageChannel); ct.setOriginalRequest(sipRequest); return ct; } /** * Creates a server transaction that encapsulates a MessageChannel. Useful * for implementations that want to subclass the standard * * @param encapsulatedMessageChannel * Message channel of the transport layer. */ public SIPServerTransaction createServerTransaction( MessageChannel encapsulatedMessageChannel) { // Issue 256 : be consistent with createClientTransaction, if // unlimitedServerTransactionTableSize is true, // a new Server Transaction is created no matter what if (unlimitedServerTransactionTableSize) { return new SIPServerTransactionImpl(this, encapsulatedMessageChannel); } else { float threshold = ((float) (serverTransactionTable.size() - serverTransactionTableLowaterMark)) / ((float) (serverTransactionTableHighwaterMark - serverTransactionTableLowaterMark)); boolean decision = Math.random() > 1.0 - threshold; if (decision) { return null; } else { return new SIPServerTransactionImpl(this, encapsulatedMessageChannel); } } } /** * Get the size of the client transaction table. * * @return -- size of the ct table. */ public int getClientTransactionTableSize() { return this.clientTransactionTable.size(); } /** * Get the size of the server transaction table. * * @return -- size of the server table. */ public int getServerTransactionTableSize() { return this.serverTransactionTable.size(); } /** * Add a new client transaction to the set of existing transactions. Add it * to the top of the list so an incoming response has less work to do in * order to find the transaction. * * @param clientTransaction * -- client transaction to add to the set. */ public void addTransaction(SIPClientTransaction clientTransaction) { if (logger.isLoggingEnabled(LogWriter.TRACE_DEBUG)) logger.logDebug("added transaction " + clientTransaction); addTransactionHash(clientTransaction); } /** * Remove transaction. This actually gets the tx out of the search * structures which the stack keeps around. When the tx */ public void removeTransaction(SIPTransaction sipTransaction) { if (logger.isLoggingEnabled(LogWriter.TRACE_DEBUG)) { logger.logDebug("removeTransaction: Removing Transaction = " + sipTransaction.getTransactionId() + " transaction = " + sipTransaction); } Object removed = null; try { if (sipTransaction instanceof SIPServerTransaction) { if (logger.isLoggingEnabled(LogLevels.TRACE_DEBUG)) { logger.logStackTrace(); } String key = sipTransaction.getTransactionId(); removed = serverTransactionTable.remove(key); String method = sipTransaction.getMethod(); this .removePendingTransaction((SIPServerTransaction) sipTransaction); this .removeTransactionPendingAck((SIPServerTransaction) sipTransaction); if (method.equalsIgnoreCase(Request.INVITE)) { this .removeFromMergeTable((SIPServerTransaction) sipTransaction); } // Send a notification to the listener. SipProviderImpl sipProvider = (SipProviderImpl) sipTransaction .getSipProvider(); if (removed != null && sipTransaction.testAndSetTransactionTerminatedEvent()) { TransactionTerminatedEvent event = new TransactionTerminatedEvent( sipProvider, (ServerTransaction) sipTransaction); sipProvider.handleEvent(event, sipTransaction); } } else { String key = sipTransaction.getTransactionId(); removed = clientTransactionTable.remove(key); if (logger.isLoggingEnabled(LogWriter.TRACE_DEBUG)) { logger.logDebug("REMOVED client tx " + removed + " KEY = " + key); } if ( removed != null ) { SIPClientTransaction clientTx = (SIPClientTransaction)removed; final String forkId = clientTx.getForkId(); if (forkId != null && clientTx.isInviteTransaction() && this.maxForkTime != 0) { if (logger.isLoggingEnabled(LogWriter.TRACE_DEBUG)) { logger.logDebug( "Scheduling to remove forked client transaction : forkId = " + forkId + " in " + this.maxForkTime + " seconds"); } this.timer.schedule(new RemoveForkedTransactionTimerTask( forkId), this.maxForkTime * 1000); clientTx.stopExpiresTimer(); } } // Send a notification to the listener. if (removed != null && sipTransaction.testAndSetTransactionTerminatedEvent()) { SipProviderImpl sipProvider = (SipProviderImpl) sipTransaction .getSipProvider(); TransactionTerminatedEvent event = new TransactionTerminatedEvent( sipProvider, (ClientTransaction) sipTransaction); sipProvider.handleEvent(event, sipTransaction); } } } finally { // http://java.net/jira/browse/JSIP-420 if(removed != null) { ((SIPTransaction)removed).cancelMaxTxLifeTimeTimer(); } if ( logger.isLoggingEnabled(LogWriter.TRACE_DEBUG)) logger.logDebug(String.format("removeTransaction: Table size : " + " clientTransactionTable %d " + " serverTransactionTable %d " + " mergetTable %d " + " terminatedServerTransactionsPendingAck %d " + " forkedClientTransactionTable %d " + " pendingTransactions %d " , clientTransactionTable.size(), serverTransactionTable.size(), mergeTable.size(), terminatedServerTransactionsPendingAck.size(), forkedClientTransactionTable.size(), pendingTransactions.size() )); } } /** * Add a new server transaction to the set of existing transactions. Add it * to the top of the list so an incoming ack has less work to do in order to * find the transaction. * * @param serverTransaction * -- server transaction to add to the set. */ public void addTransaction(SIPServerTransaction serverTransaction) throws IOException { if (logger.isLoggingEnabled(LogWriter.TRACE_DEBUG)) logger.logDebug("added transaction " + serverTransaction); serverTransaction.map(); addTransactionHash(serverTransaction); } /** * Hash table for quick lookup of transactions. Here we wait for room if * needed. */ private void addTransactionHash(SIPTransaction sipTransaction) { SIPRequest sipRequest = sipTransaction.getOriginalRequest(); SIPTransaction existingTx = null; if (sipTransaction instanceof SIPClientTransaction) { if (!this.unlimitedClientTransactionTableSize) { if (this.activeClientTransactionCount.get() > clientTransactionTableHiwaterMark) { try { synchronized (this.clientTransactionTable) { this.clientTransactionTable.wait(); this.activeClientTransactionCount.incrementAndGet(); } } catch (Exception ex) { if (logger.isLoggingEnabled()) { logger.logError( "Exception occured while waiting for room", ex); } } } } else { this.activeClientTransactionCount.incrementAndGet(); } String key = sipRequest.getTransactionId(); existingTx = clientTransactionTable.putIfAbsent(key, (SIPClientTransaction) sipTransaction); if (logger.isLoggingEnabled(LogWriter.TRACE_DEBUG)) { logger .logDebug(" putTransactionHash : " + " key = " + key); } } else { String key = sipRequest.getTransactionId(); if (logger.isLoggingEnabled(LogWriter.TRACE_DEBUG)) { logger .logDebug(" putTransactionHash : " + " key = " + key); } existingTx = serverTransactionTable.putIfAbsent(key, (SIPServerTransaction) sipTransaction); } // http://java.net/jira/browse/JSIP-420 if(existingTx == null) { sipTransaction.scheduleMaxTxLifeTimeTimer(); } } /** * This method is called when a client tx transitions to the Completed or * Terminated state. * */ protected void decrementActiveClientTransactionCount() { if (this.activeClientTransactionCount.decrementAndGet() <= this.clientTransactionTableLowaterMark && !this.unlimitedClientTransactionTableSize) { synchronized (this.clientTransactionTable) { clientTransactionTable.notify(); } } } /** * Remove the transaction from transaction hash. */ protected void removeTransactionHash(SIPTransaction sipTransaction) { SIPRequest sipRequest = sipTransaction.getOriginalRequest(); if (sipRequest == null) return; Object removed = null; if (sipTransaction instanceof SIPClientTransaction) { String key = sipTransaction.getTransactionId(); if (logger.isLoggingEnabled(LogWriter.TRACE_DEBUG)) { logger.logStackTrace(); logger.logDebug("removing client Tx : " + key); } removed = clientTransactionTable.remove(key); } else if (sipTransaction instanceof SIPServerTransaction) { String key = sipTransaction.getTransactionId(); removed = serverTransactionTable.remove(key); if (logger.isLoggingEnabled(LogWriter.TRACE_DEBUG)) { logger.logDebug("removing server Tx : " + key); } } // http://java.net/jira/browse/JSIP-420 if(removed != null) { ((SIPTransaction)removed).cancelMaxTxLifeTimeTimer(); } } /** * Invoked when an error has ocurred with a transaction. * * @param transactionErrorEvent * Error event. */ public synchronized void transactionErrorEvent( SIPTransactionErrorEvent transactionErrorEvent) { SIPTransaction transaction = (SIPTransaction) transactionErrorEvent .getSource(); if (transactionErrorEvent.getErrorID() == SIPTransactionErrorEvent.TRANSPORT_ERROR) { // Kill scanning of this transaction. transaction.setState(TransactionState._TERMINATED); if (transaction instanceof SIPServerTransaction) { // let the reaper get him ((SIPServerTransaction) transaction).setCollectionTime(0); } transaction.disableTimeoutTimer(); transaction.disableRetransmissionTimer(); // Send a IO Exception to the Listener. } } /* * (non-Javadoc) * * @see * android.gov.nist.javax.sip.stack.SIPDialogEventListener#dialogErrorEvent(gov. * nist.javax.sip.stack.SIPDialogErrorEvent) */ public synchronized void dialogErrorEvent( SIPDialogErrorEvent dialogErrorEvent) { SIPDialog sipDialog = (SIPDialog) dialogErrorEvent.getSource(); SipListener sipListener = ((SipStackImpl)this).getSipListener(); // if the app is not implementing the SipListenerExt interface we delete // the dialog to avoid leaks if(sipDialog != null && !(sipListener instanceof SipListenerExt)) { sipDialog.delete(); } } /** * Stop stack. Clear all the timer stuff. Make the stack close all accept * connections and return. This is useful if you want to start/stop the * stack several times from your application. Caution : use of this function * could cause peculiar bugs as messages are prcessed asynchronously by the * stack. */ public void stopStack() { // Prevent NPE on two concurrent stops this.toExit = true; // JvB: set it to null, SIPDialog tries to schedule things after stop this.pendingTransactions.clear(); synchronized (this) { this.notifyAll(); } synchronized (this.clientTransactionTable) { clientTransactionTable.notifyAll(); } if(selfRoutingThreadpoolExecutor != null && selfRoutingThreadpoolExecutor instanceof ExecutorService) { ((ExecutorService)selfRoutingThreadpoolExecutor).shutdown(); } selfRoutingThreadpoolExecutor = null; // Threads must periodically check this flag. MessageProcessor[] processorList; processorList = getMessageProcessors(); for (int processorIndex = 0; processorIndex < processorList.length; processorIndex++) { removeMessageProcessor(processorList[processorIndex]); } closeAllSockets(); // Let the processing complete. if (this.timer != null) this.timer.stop(); try { Thread.sleep(1000); } catch (InterruptedException ex) { } this.clientTransactionTable.clear(); this.serverTransactionTable.clear(); this.dialogTable.clear(); this.serverLogger.closeLogFile(); } public void closeAllSockets() { this.ioHandler.closeAll(); for(MessageProcessor p : messageProcessors) { if(p instanceof NioTcpMessageProcessor) { NioTcpMessageProcessor niop = (NioTcpMessageProcessor)p; niop.nioHandler.closeAll(); } } } /** * Put a transaction in the pending transaction list. This is to avoid a * race condition when a duplicate may arrive when the application is * deciding whether to create a transaction or not. */ public void putPendingTransaction(SIPServerTransaction tr) { if (logger.isLoggingEnabled(LogWriter.TRACE_DEBUG)) logger.logDebug("putPendingTransaction: " + tr); this.pendingTransactions.put(tr.getTransactionId(), tr); } /** * Return the network layer (i.e. the interface for socket creation or the * socket factory for the stack). * * @return -- the registered Network Layer. */ public NetworkLayer getNetworkLayer() { if (networkLayer == null) { return DefaultNetworkLayer.SINGLETON; } else { return networkLayer; } } /** * Return true if logging is enabled for this stack. * Deprecated. Use StackLogger.isLoggingEnabled instead * * @return true if logging is enabled for this stack instance. */ @Deprecated public boolean isLoggingEnabled() { return logger == null ? false : logger .isLoggingEnabled(); } /** * Deprecated. Use StackLogger.isLoggingEnabled instead * @param level * @return */ @Deprecated public boolean isLoggingEnabled( int level ) { return logger == null ? false : logger.isLoggingEnabled( level ); } /** * Get the logger. This method should be deprected. * Use static logger = CommonLogger.getLogger() instead * * @return --the logger for the sip stack. Each stack has its own logger * instance. */ @Deprecated public StackLogger getStackLogger() { return logger; } /** * Server log is the place where we log messages for the signaling trace * viewer. * * @return -- the log file where messages are logged for viewing by the * trace viewer. */ public ServerLogger getServerLogger() { return this.serverLogger; } /** * Maximum size of a single TCP message. Limiting the size of a single TCP * message prevents flooding attacks. * * @return the size of a single TCP message. */ public int getMaxMessageSize() { return this.maxMessageSize; } /** * Set the flag that instructs the stack to only start a single thread for * sequentially processing incoming udp messages (thus serializing the * processing). Same as setting thread pool size to 1. */ public void setSingleThreaded() { this.threadPoolSize = 1; } /** * If all calls are occurring on a single TCP socket then the stack would process them in single thread. * This property allows immediately after parsing to split the load into many threads which increases * the performance significantly. If set to 0 then we just use the old model with single thread. * * @return */ public int getTcpPostParsingThreadPoolSize() { return tcpPostParsingThreadPoolSize; } /** * If all calls are occurring on a single TCP socket then the stack would process them in single thread. * This property allows immediately after parsing to split the load into many threads which increases * the performance significantly. If set to 0 then we just use the old model with single thread. * * @param tcpPostParsingThreadPoolSize */ public void setTcpPostParsingThreadPoolSize(int tcpPostParsingThreadPoolSize) { this.tcpPostParsingThreadPoolSize = tcpPostParsingThreadPoolSize; } /** * Set the thread pool size for processing incoming UDP messages. Limit the * total number of threads for processing udp messages. * * @param size * -- the thread pool size. * */ public void setThreadPoolSize(int size) { this.threadPoolSize = size; } /** * Set the max # of simultaneously handled TCP connections. * * @param nconnections * -- the number of connections to handle. */ public void setMaxConnections(int nconnections) { this.maxConnections = nconnections; } /** * Get the default route string. * * @param sipRequest * is the request for which we want to compute the next hop. * @throws SipException */ public Hop getNextHop(SIPRequest sipRequest) throws SipException { if (this.useRouterForAll) { // Use custom router to route all messages. if (router != null) return router.getNextHop(sipRequest); else return null; } else { // Also non-SIP request containing Route headers goes to the default // router if (sipRequest.getRequestURI().isSipURI() || sipRequest.getRouteHeaders() != null) { return defaultRouter.getNextHop(sipRequest); } else if (router != null) { return router.getNextHop(sipRequest); } else return null; } } /** * Set the descriptive name of the stack. * * @param stackName * -- descriptive name of the stack. */ public void setStackName(String stackName) { this.stackName = stackName; } /** * Set my address. * * @param stackAddress * -- A string containing the stack address. */ protected void setHostAddress(String stackAddress) throws UnknownHostException { if (stackAddress.indexOf(':') != stackAddress.lastIndexOf(':') && stackAddress.trim().charAt(0) != '[') this.stackAddress = '[' + stackAddress + ']'; else this.stackAddress = stackAddress; this.stackInetAddress = InetAddress.getByName(stackAddress); } /** * Get my address. * * @return hostAddress - my host address or null if no host address is * defined. * @deprecated */ public String getHostAddress() { // JvB: for 1.2 this may return null... return this.stackAddress; } /** * Set the router algorithm. This is meant for routing messages out of * dialog or for non-sip uri's. * * @param router * A class that implements the Router interface. */ protected void setRouter(Router router) { this.router = router; } /** * Get the router algorithm. * * @return Router router */ public Router getRouter(SIPRequest request) { if (request.getRequestLine() == null) { return this.defaultRouter; } else if (this.useRouterForAll) { return this.router; } else { if (request.getRequestURI().getScheme().equals("sip") || request.getRequestURI().getScheme().equals("sips")) { return this.defaultRouter; } else { if (this.router != null) return this.router; else return defaultRouter; } } } /* * (non-Javadoc) * * @see android.javax.sip.SipStack#getRouter() */ public Router getRouter() { return this.router; } /** * return the status of the toExit flag. * * @return true if the stack object is alive and false otherwise. */ public boolean isAlive() { return !toExit; } /** * Adds a new MessageProcessor to the list of running processors for this * SIPStack and starts it. You can use this method for dynamic stack * configuration. */ protected void addMessageProcessor(MessageProcessor newMessageProcessor) throws IOException { // Suggested changes by Jeyashankher, [email protected] // newMessageProcessor.start() can fail // because a local port is not available // This throws an IOException. // We should not add the message processor to the // local list of processors unless the start() // call is successful. // newMessageProcessor.start(); messageProcessors.add(newMessageProcessor); } /** * Removes a MessageProcessor from this SIPStack. * * @param oldMessageProcessor */ protected void removeMessageProcessor(MessageProcessor oldMessageProcessor) { if (messageProcessors.remove(oldMessageProcessor)) { oldMessageProcessor.stop(); } } /** * Gets an array of running MessageProcessors on this SIPStack. * Acknowledgement: Jeff Keyser suggested that applications should have * access to the running message processors and contributed this code. * * @return an array of running message processors. */ protected MessageProcessor[] getMessageProcessors() { return (MessageProcessor[]) messageProcessors .toArray(new MessageProcessor[0]); } /** * Creates the equivalent of a JAIN listening point and attaches to the * stack. * * @param ipAddress * -- ip address for the listening point. * @param port * -- port for the listening point. * @param transport * -- transport for the listening point. */ protected MessageProcessor createMessageProcessor(InetAddress ipAddress, int port, String transport) throws java.io.IOException { MessageProcessor newMessageProcessor = messageProcessorFactory.createMessageProcessor(this, ipAddress, port, transport); this.addMessageProcessor(newMessageProcessor); return newMessageProcessor; } /** * Set the message factory. * * @param messageFactory * -- messageFactory to set. */ protected void setMessageFactory(StackMessageFactory messageFactory) { this.sipMessageFactory = messageFactory; } /** * Creates a new MessageChannel for a given Hop. * * @param sourceIpAddress * - Ip address of the source of this message. * * @param sourcePort * - source port of the message channel to be created. * * @param nextHop * Hop to create a MessageChannel to. * * @return A MessageChannel to the specified Hop, or null if no * MessageProcessors support contacting that Hop. * * @throws UnknownHostException * If the host in the Hop doesn't exist. */ public MessageChannel createRawMessageChannel(String sourceIpAddress, int sourcePort, Hop nextHop) throws UnknownHostException { Host targetHost; HostPort targetHostPort; Iterator processorIterator; MessageProcessor nextProcessor; MessageChannel newChannel; // Create the host/port of the target hop targetHost = new Host(); targetHost.setHostname(nextHop.getHost()); targetHostPort = new HostPort(); targetHostPort.setHost(targetHost); targetHostPort.setPort(nextHop.getPort()); // Search each processor for the correct transport newChannel = null; processorIterator = messageProcessors.iterator(); while (processorIterator.hasNext() && newChannel == null) { nextProcessor = (MessageProcessor) processorIterator.next(); // If a processor that supports the correct // transport is found, if (nextHop.getTransport().equalsIgnoreCase( nextProcessor.getTransport()) && sourceIpAddress.equals(nextProcessor.getIpAddress() .getHostAddress()) && sourcePort == nextProcessor.getPort()) { try { // Create a channel to the target // host/port newChannel = nextProcessor .createMessageChannel(targetHostPort); } catch (UnknownHostException ex) { if (logger.isLoggingEnabled()) logger.logException(ex); throw ex; } catch (IOException e) { if (logger.isLoggingEnabled()) logger.logException(e); // Ignore channel creation error - // try next processor } } } if(newChannel == null) { if(logger.isLoggingEnabled(LogWriter.TRACE_DEBUG)) { logger.logDebug("newChanne is null, messageProcessors.size = " + messageProcessors.size()); processorIterator = messageProcessors.iterator(); while (processorIterator.hasNext() && newChannel == null) { nextProcessor = (MessageProcessor) processorIterator.next(); logger.logDebug("nextProcessor:" + nextProcessor + "| transport = " + nextProcessor.getTransport() + " ipAddress=" + nextProcessor.getIpAddress() + " port=" + nextProcessor.getPort()); } logger.logDebug("More info on newChannel=null"); logger.logDebug("nextHop=" + nextHop + " sourceIp=" + sourceIpAddress + " sourcePort=" + sourcePort + " targetHostPort=" + targetHostPort); } } // Return the newly-created channel return newChannel; } /** * Return true if a given event can result in a forked subscription. The * stack is configured with a set of event names that can result in forked * subscriptions. * * @param ename * -- event name to check. * */ public boolean isEventForked(String ename) { if (logger.isLoggingEnabled(LogWriter.TRACE_DEBUG)) { logger.logDebug("isEventForked: " + ename + " returning " + this.forkedEvents.contains(ename)); } return this.forkedEvents.contains(ename); } /** * get the address resolver interface. * * @return -- the registered address resolver. */ public AddressResolver getAddressResolver() { return this.addressResolver; } /** * Set the address resolution interface * * @param addressResolver * -- the address resolver to set. */ public void setAddressResolver(AddressResolver addressResolver) { this.addressResolver = addressResolver; } /** * Set the logger factory. * * @param logRecordFactory * -- the log record factory to set. */ public void setLogRecordFactory(LogRecordFactory logRecordFactory) { this.logRecordFactory = logRecordFactory; } /** * get the thread auditor object * * @return -- the thread auditor of the stack */ public ThreadAuditor getThreadAuditor() { return this.threadAuditor; } // / // / Stack Audit methods // / /** * Audits the SIP Stack for leaks * * @return Audit report, null if no leaks were found */ public String auditStack(Set activeCallIDs, long leakedDialogTimer, long leakedTransactionTimer) { String auditReport = null; String leakedDialogs = auditDialogs(activeCallIDs, leakedDialogTimer); String leakedServerTransactions = auditTransactions( serverTransactionTable, leakedTransactionTimer); String leakedClientTransactions = auditTransactions( clientTransactionTable, leakedTransactionTimer); if (leakedDialogs != null || leakedServerTransactions != null || leakedClientTransactions != null) { auditReport = "SIP Stack Audit:\n" + (leakedDialogs != null ? leakedDialogs : "") + (leakedServerTransactions != null ? leakedServerTransactions : "") + (leakedClientTransactions != null ? leakedClientTransactions : ""); } return auditReport; } /** * Audits SIP dialogs for leaks - Compares the dialogs in the dialogTable * with a list of Call IDs passed by the application. - Dialogs that are not * known by the application are leak suspects. - Kill the dialogs that are * still around after the timer specified. * * @return Audit report, null if no dialog leaks were found */ private String auditDialogs(Set activeCallIDs, long leakedDialogTimer) { String auditReport = " Leaked dialogs:\n"; int leakedDialogs = 0; long currentTime = System.currentTimeMillis(); // Make a shallow copy of the dialog list. // This copy will remain intact as leaked dialogs are removed by the // stack. LinkedList dialogs; synchronized (dialogTable) { dialogs = new LinkedList(dialogTable.values()); } // Iterate through the dialogDialog, get the callID of each dialog and // check if it's in the // list of active calls passed by the application. If it isn't, start // the timer on it. // If the timer has expired, kill the dialog. Iterator it = dialogs.iterator(); while (it.hasNext()) { // Get the next dialog SIPDialog itDialog = (SIPDialog) it.next(); // Get the call id associated with this dialog CallIdHeader callIdHeader = (itDialog != null ? itDialog .getCallId() : null); String callID = (callIdHeader != null ? callIdHeader.getCallId() : null); // Check if the application knows about this call id if (itDialog != null && callID != null && !activeCallIDs.contains(callID)) { // Application doesn't know anything about this dialog... if (itDialog.auditTag == 0) { // Mark this dialog as suspect itDialog.auditTag = currentTime; } else { // We already audited this dialog before. Check if his // time's up. if (currentTime - itDialog.auditTag >= leakedDialogTimer) { // Leaked dialog found leakedDialogs++; // Generate report DialogState dialogState = itDialog.getState(); String dialogReport = "dialog id: " + itDialog.getDialogId() + ", dialog state: " + (dialogState != null ? dialogState.toString() : "null"); auditReport += " " + dialogReport + "\n"; // Kill it itDialog.setState(SIPDialog.TERMINATED_STATE); if (logger.isLoggingEnabled(LogWriter.TRACE_DEBUG)) logger.logDebug("auditDialogs: leaked " + dialogReport); } } } } // Return final report if (leakedDialogs > 0) { auditReport += " Total: " + Integer.toString(leakedDialogs) + " leaked dialogs detected and removed.\n"; } else { auditReport = null; } return auditReport; } /** * Audits SIP transactions for leaks * * @return Audit report, null if no transaction leaks were found */ private String auditTransactions(ConcurrentHashMap transactionsMap, long a_nLeakedTransactionTimer) { String auditReport = " Leaked transactions:\n"; int leakedTransactions = 0; long currentTime = System.currentTimeMillis(); // Make a shallow copy of the transaction list. // This copy will remain intact as leaked transactions are removed by // the stack. LinkedList transactionsList = new LinkedList(transactionsMap.values()); // Iterate through our copy Iterator it = transactionsList.iterator(); while (it.hasNext()) { SIPTransaction sipTransaction = (SIPTransaction) it.next(); if (sipTransaction != null) { if (sipTransaction.getAuditTag() == 0) { // First time we see this transaction. Mark it as audited. sipTransaction.setAuditTag(currentTime); } else { // We've seen this transaction before. Check if his time's // up. if (currentTime - sipTransaction.getAuditTag() >= a_nLeakedTransactionTimer) { // Leaked transaction found leakedTransactions++; // Generate some report TransactionState transactionState = sipTransaction .getState(); SIPRequest origRequest = sipTransaction .getOriginalRequest(); String origRequestMethod = (origRequest != null ? origRequest .getMethod() : null); String transactionReport = sipTransaction.getClass() .getName() + ", state: " + (transactionState != null ? transactionState .toString() : "null") + ", OR: " + (origRequestMethod != null ? origRequestMethod : "null"); auditReport += " " + transactionReport + "\n"; // Kill it removeTransaction(sipTransaction); if (logger.isLoggingEnabled(LogWriter.TRACE_DEBUG)) logger.logDebug("auditTransactions: leaked " + transactionReport); } } } } // Return final report if (leakedTransactions > 0) { auditReport += " Total: " + Integer.toString(leakedTransactions) + " leaked transactions detected and removed.\n"; } else { auditReport = null; } return auditReport; } public void setNon2XXAckPassedToListener(boolean passToListener) { this.non2XXAckPassedToListener = passToListener; } /** * @return the non2XXAckPassedToListener */ public boolean isNon2XXAckPassedToListener() { return non2XXAckPassedToListener; } /** * Get the count of client transactions that is not in the completed or * terminated state. * * @return the activeClientTransactionCount */ public int getActiveClientTransactionCount() { return activeClientTransactionCount.get(); } public boolean isRfc2543Supported() { return this.rfc2543Supported; } public boolean isCancelClientTransactionChecked() { return this.cancelClientTransactionChecked; } public boolean isRemoteTagReassignmentAllowed() { return this.remoteTagReassignmentAllowed; } /** * This method is slated for addition to the next spec revision. * * * @return -- the collection of dialogs that is being managed by the stack. */ public Collection getDialogs() { HashSet dialogs = new HashSet(); dialogs.addAll(this.dialogTable.values()); dialogs.addAll(this.earlyDialogTable.values()); return dialogs; } /** * * @return -- the collection of dialogs matching the state that is being * managed by the stack. */ public Collection getDialogs(DialogState state) { HashSet matchingDialogs = new HashSet(); if (DialogState.EARLY.equals(state)) { matchingDialogs.addAll(this.earlyDialogTable.values()); } else { Collection dialogs = dialogTable.values(); for (SIPDialog dialog : dialogs) { if (dialog.getState() != null && dialog.getState().equals(state)) { matchingDialogs.add(dialog); } } } return matchingDialogs; } /** * Get the Replaced Dialog from the stack. * * @param replacesHeader * -- the header that references the dialog being replaced. */ public Dialog getReplacesDialog(ReplacesHeader replacesHeader) { String cid = replacesHeader.getCallId(); String fromTag = replacesHeader.getFromTag(); String toTag = replacesHeader.getToTag(); for ( SIPDialog dialog : this.dialogTable.values() ) { if ( dialog.getCallId().getCallId().equals(cid) && fromTag.equalsIgnoreCase(dialog.lastResponseFromTag) && toTag.equalsIgnoreCase(dialog.lastResponseToTag)) { return dialog; } } StringBuilder dialogId = new StringBuilder(cid); // retval.append(COLON).append(to.getUserAtHostPort()); if (toTag != null) { dialogId.append(":"); dialogId.append(toTag); } // retval.append(COLON).append(from.getUserAtHostPort()); if (fromTag != null) { dialogId.append(":"); dialogId.append(fromTag); } String did = dialogId.toString().toLowerCase(); if (logger.isLoggingEnabled(LogWriter.TRACE_DEBUG)) logger.logDebug("Looking for dialog " + did); /* * Check if we can find this dialog in our dialog table. */ Dialog replacesDialog = this.dialogTable.get(did); /* * This could be a forked dialog. Search for it. */ if ( replacesDialog == null ) { for (SIPClientTransaction ctx : this.clientTransactionTable .values()) { if ( ctx.getDialog(did) != null ) { replacesDialog = ctx.getDialog(did); break; } } } return replacesDialog; } /** * Get the Join Dialog from the stack. * * @param joinHeader * -- the header that references the dialog being joined. */ public Dialog getJoinDialog(JoinHeader joinHeader) { String cid = joinHeader.getCallId(); String fromTag = joinHeader.getFromTag(); String toTag = joinHeader.getToTag(); StringBuilder retval = new StringBuilder(cid); // retval.append(COLON).append(to.getUserAtHostPort()); if (toTag != null) { retval.append(":"); retval.append(toTag); } // retval.append(COLON).append(from.getUserAtHostPort()); if (fromTag != null) { retval.append(":"); retval.append(fromTag); } return this.dialogTable.get(retval.toString().toLowerCase()); } /** * @param timer * the timer to set */ public void setTimer(SipTimer timer) { this.timer = timer; } /** * @return the timer */ public SipTimer getTimer() throws IllegalStateException { // if(timer == null) // throw new IllegalStateException("Stack has been stopped, no further tasks can be scheduled."); return timer; } /** * Size of the receive UDP buffer. This property affects performance under * load. Bigger buffer is better under load. * * @return */ public int getReceiveUdpBufferSize() { return receiveUdpBufferSize; } /** * Size of the receive UDP buffer. This property affects performance under * load. Bigger buffer is better under load. * * @return */ public void setReceiveUdpBufferSize(int receiveUdpBufferSize) { this.receiveUdpBufferSize = receiveUdpBufferSize; } /** * Size of the send UDP buffer. This property affects performance under * load. Bigger buffer is better under load. * * @return */ public int getSendUdpBufferSize() { return sendUdpBufferSize; } /** * Size of the send UDP buffer. This property affects performance under * load. Bigger buffer is better under load. * * @return */ public void setSendUdpBufferSize(int sendUdpBufferSize) { this.sendUdpBufferSize = sendUdpBufferSize; } /** * Flag that reqests checking of branch IDs on responses. * * @return */ public boolean checkBranchId() { return this.checkBranchId; } /** * @param logStackTraceOnMessageSend * the logStackTraceOnMessageSend to set */ public void setLogStackTraceOnMessageSend(boolean logStackTraceOnMessageSend) { this.logStackTraceOnMessageSend = logStackTraceOnMessageSend; } /** * @return the logStackTraceOnMessageSend */ public boolean isLogStackTraceOnMessageSend() { return logStackTraceOnMessageSend; } public void setDeliverDialogTerminatedEventForNullDialog() { this.isDialogTerminatedEventDeliveredForNullDialog = true; } public void addForkedClientTransaction( SIPClientTransaction clientTransaction) { String forkId = ((SIPRequest)clientTransaction.getRequest()).getForkId(); clientTransaction.setForkId(forkId); if (logger.isLoggingEnabled(LogWriter.TRACE_DEBUG)) { logger.logStackTrace(); logger.logDebug( "Adding forked client transaction : " + clientTransaction + " branch=" + clientTransaction.getBranch() + " forkId = " + forkId + " sipDialog = " + clientTransaction.getDefaultDialog() + " sipDialogId= " + clientTransaction.getDefaultDialog().getDialogId()); } this.forkedClientTransactionTable.put(forkId, clientTransaction); } public SIPClientTransaction getForkedTransaction(String transactionId) { return this.forkedClientTransactionTable.get(transactionId); } /** * @param deliverUnsolicitedNotify * the deliverUnsolicitedNotify to set */ public void setDeliverUnsolicitedNotify(boolean deliverUnsolicitedNotify) { this.deliverUnsolicitedNotify = deliverUnsolicitedNotify; } /** * @return the deliverUnsolicitedNotify */ public boolean isDeliverUnsolicitedNotify() { return deliverUnsolicitedNotify; } /** * @param deliverTerminatedEventForAck * the deliverTerminatedEventForAck to set */ public void setDeliverTerminatedEventForAck( boolean deliverTerminatedEventForAck) { this.deliverTerminatedEventForAck = deliverTerminatedEventForAck; } /** * @return the deliverTerminatedEventForAck */ public boolean isDeliverTerminatedEventForAck() { return deliverTerminatedEventForAck; } public long getMinKeepAliveInterval() { return this.minKeepAliveInterval; } public void setPatchWebSocketHeaders(Boolean patchWebSocketHeaders) { this.patchWebSocketHeaders = patchWebSocketHeaders; } public boolean isPatchWebSocketHeaders() { return patchWebSocketHeaders; } public void setPatchRport(Boolean patchRport) { this.patchRport = patchRport; } public boolean isPatchRport() { return patchRport; } /** * @param maxForkTime * the maxForkTime to set */ public void setMaxForkTime(int maxForkTime) { this.maxForkTime = maxForkTime; } /** * @return the maxForkTime */ public int getMaxForkTime() { return maxForkTime; } /** * This is a testing interface. Normally the application does not see * retransmitted ACK for 200 OK retransmissions. * * @return */ public boolean isDeliverRetransmittedAckToListener() { return this.deliverRetransmittedAckToListener; } /** * Get the dialog timeout counter. * * @return */ public int getAckTimeoutFactor() { if (getSipListener() != null && getSipListener() instanceof SipListenerExt) { return dialogTimeoutFactor; } else { return 64; } } public abstract SipListener getSipListener(); /** * Executor used to optimize the ReinviteSender Runnable in the sendRequest * of the SipDialog */ public ExecutorService getReinviteExecutor() { return reinviteExecutor; } /** * @param messageParserFactory the messageParserFactory to set */ public void setMessageParserFactory(MessageParserFactory messageParserFactory) { this.messageParserFactory = messageParserFactory; } /** * @return the messageParserFactory */ public MessageParserFactory getMessageParserFactory() { return messageParserFactory; } /** * @param messageProcessorFactory the messageProcessorFactory to set */ public void setMessageProcessorFactory(MessageProcessorFactory messageProcessorFactory) { this.messageProcessorFactory = messageProcessorFactory; } /** * @return the messageProcessorFactory */ public MessageProcessorFactory getMessageProcessorFactory() { return messageProcessorFactory; } /** * @param aggressiveCleanup the aggressiveCleanup to set */ public void setAggressiveCleanup(boolean aggressiveCleanup) { if(aggressiveCleanup) releaseReferencesStrategy = ReleaseReferencesStrategy.Normal; else releaseReferencesStrategy = ReleaseReferencesStrategy.None; } /** * @return the aggressiveCleanup */ public boolean isAggressiveCleanup() { if(releaseReferencesStrategy == releaseReferencesStrategy.None) return false; else return true; } public int getEarlyDialogTimeout() { return this.earlyDialogTimeout; } /** * @param clientAuth the clientAuth to set */ public void setClientAuth(ClientAuthType clientAuth) { this.clientAuth = clientAuth; } /** * @return the clientAuth */ public ClientAuthType getClientAuth() { return clientAuth; } /** * @param threadPriority the threadPriority to set */ public void setThreadPriority(int threadPriority) { if(threadPriority < Thread.MIN_PRIORITY) throw new IllegalArgumentException("The Stack Thread Priority shouldn't be lower than Thread.MIN_PRIORITY"); if(threadPriority > Thread.MAX_PRIORITY) throw new IllegalArgumentException("The Stack Thread Priority shouldn't be higher than Thread.MAX_PRIORITY"); if(logger.isLoggingEnabled(StackLogger.TRACE_INFO)) { logger.logInfo("Setting Stack Thread priority to " + threadPriority); } this.threadPriority = threadPriority; } /** * @return the threadPriority */ public int getThreadPriority() { return threadPriority; } public int getReliableConnectionKeepAliveTimeout() { return reliableConnectionKeepAliveTimeout; } public void setReliableConnectionKeepAliveTimeout(int reliableConnectionKeepAliveTimeout) { // if (reliableConnectionKeepAliveTimeout < 0){ // throw new IllegalArgumentException("The Stack reliableConnectionKeepAliveTimeout can not be negative. reliableConnectionKeepAliveTimeoutCandidate = " + reliableConnectionKeepAliveTimeout); // // } else if (reliableConnectionKeepAliveTimeout == 0){ if (logger.isLoggingEnabled(LogWriter.TRACE_INFO)) { logger.logInfo("Default value (840000 ms) will be used for reliableConnectionKeepAliveTimeout stack property"); } reliableConnectionKeepAliveTimeout = 840000; } if (logger.isLoggingEnabled(LogWriter.TRACE_INFO)) { logger.logInfo("value " + reliableConnectionKeepAliveTimeout + " will be used for reliableConnectionKeepAliveTimeout stack property"); } this.reliableConnectionKeepAliveTimeout = reliableConnectionKeepAliveTimeout; } private MessageProcessor findMessageProcessor(String myAddress, int myPort, String transport) { for (MessageProcessor processor : getMessageProcessors()) { if (processor.getTransport().equalsIgnoreCase(transport) && processor.getSavedIpAddress().equals(myAddress) && processor.getPort() == myPort) { return processor; } } return null; } /** * Find suitable MessageProcessor and calls it's {@link MessageProcessor#setKeepAliveTimeout(String, int, long)} method passing * peerAddress and peerPort as arguments. * * @param myAddress - server ip address * @param myPort - server port * @param transport - transport * @param peerAddress - peerAddress * @param peerPort - peerPort * @return result of invocation of {@link MessageProcessor#setKeepAliveTimeout(String, int, long)} if MessageProcessor was found */ public boolean setKeepAliveTimeout(String myAddress, int myPort, String transport, String peerAddress, int peerPort, long keepAliveTimeout) { MessageProcessor processor = findMessageProcessor(myAddress, myPort, transport); if (processor == null || !(processor instanceof ConnectionOrientedMessageProcessor)) { return false; } if (logger.isLoggingEnabled(LogWriter.TRACE_DEBUG)) { logger.logDebug("~~~ Trying to find MessageChannel and set new KeepAliveTimeout( myAddress=" + myAddress + ", myPort=" + myPort + ", transport=" + transport + ", peerAddress=" + peerAddress + ", peerPort=" + peerPort + ", keepAliveTimeout=" + keepAliveTimeout + "), MessageProcessor=" + processor); } return ((ConnectionOrientedMessageProcessor)processor).setKeepAliveTimeout(peerAddress, peerPort, keepAliveTimeout); } /** * Find suitable MessageProcessor and calls it's {@link MessageProcessor#closeReliableConnection(String, int)} * method passing peerAddress and peerPort as arguments. * * @param myAddress - server ip address * @param myPort - server port * @param transport - transport * @param peerAddress - peerAddress * @param peerPort - peerPort */ public boolean closeReliableConnection(String myAddress, int myPort, String transport, String peerAddress, int peerPort) { MessageProcessor processor = findMessageProcessor(myAddress, myPort, transport); if (processor != null && processor instanceof ConnectionOrientedMessageProcessor) { if (logger.isLoggingEnabled(LogWriter.TRACE_DEBUG)) { logger.logDebug("~~~ closeReliableConnection( myAddress=" + myAddress + ", myPort=" + myPort + ", transport=" + transport + ", peerAddress=" + peerAddress + ", peerPort=" + peerPort + "), MessageProcessor=" + processor); } return ((ConnectionOrientedMessageProcessor)processor).closeReliableConnection(peerAddress, peerPort); } return false; } /** * @return the sslHandshakeTimeout */ public long getSslHandshakeTimeout() { return sslHandshakeTimeout; } /** * @param sslHandshakeTimeout the sslHandshakeTimeout to set */ public void setSslHandshakeTimeout(long sslHandshakeTimeout) { this.sslHandshakeTimeout = sslHandshakeTimeout; } /** * @param earlyDialogTimeout the earlyDialogTimeout to set */ public void setEarlyDialogTimeout(int earlyDialogTimeout) { this.earlyDialogTimeout = earlyDialogTimeout; } /** * @return the maxTxLifetimeInvite */ public int getMaxTxLifetimeInvite() { return maxTxLifetimeInvite; } /** * @param maxTxLifetimeInvite the maxTxLifetimeInvite to set */ public void setMaxTxLifetimeInvite(int maxTxLifetimeInvite) { this.maxTxLifetimeInvite = maxTxLifetimeInvite; } /** * @return the maxTxLifetimeNonInvite */ public int getMaxTxLifetimeNonInvite() { return maxTxLifetimeNonInvite; } /** * @param maxTxLifetimeNonInvite the maxTxLifetimeNonInvite to set */ public void setMaxTxLifetimeNonInvite(int maxTxLifetimeNonInvite) { this.maxTxLifetimeNonInvite = maxTxLifetimeNonInvite; } public boolean isSslRenegotiationEnabled() { return sslRenegotiationEnabled; } public void setSslRenegotiationEnabled(boolean sslRenegotiationEnabled) { this.sslRenegotiationEnabled = sslRenegotiationEnabled; } /** * @return the connectionLingerTimer */ public int getConnectionLingerTimer() { return connectionLingerTimer; } /** * @param connectionLingerTimer the connectionLingerTimer to set */ public void setConnectionLingerTimer(int connectionLingerTimer) { SIPTransactionStack.connectionLingerTimer = connectionLingerTimer; } /** * @return the stackCongestionControlTimeout */ public int getStackCongestionControlTimeout() { return stackCongestionControlTimeout; } /** * @param stackCongestionControlTimeout the stackCongestionControlTimeout to set */ public void setStackCongestionControlTimeout( int stackCongestionControlTimeout) { this.stackCongestionControlTimeout = stackCongestionControlTimeout; } /** * @return the releaseReferencesStrategy */ public ReleaseReferencesStrategy getReleaseReferencesStrategy() { return releaseReferencesStrategy; } /** * @param releaseReferencesStrategy the releaseReferencesStrategy to set */ public void setReleaseReferencesStrategy(ReleaseReferencesStrategy releaseReferencesStrategy) { this.releaseReferencesStrategy = releaseReferencesStrategy; } }




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