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//----------------------------------------------------------------------------
//
// Module: TimeoutManager.java
//
// Description: Transaction time-out manager.
//
// Product: com.sun.jts.CosTransactions
//
// Author: Simon Holdsworth
//
// Date: March, 1997
//
// Copyright (c): 1995-1997 IBM Corp.
//
// The source code for this program is not published or otherwise divested
// of its trade secrets, irrespective of what has been deposited with the
// U.S. Copyright Office.
//
// This software contains confidential and proprietary information of
// IBM Corp.
//----------------------------------------------------------------------------
//Portions Copyright [2016] [Payara Foundation]
package com.sun.jts.CosTransactions;
import java.util.*;
import org.omg.CosTransactions.*;
import com.sun.jts.jtsxa.XID;
import java.util.logging.Logger;
import java.util.logging.Level;
import com.sun.logging.LogDomains;
/**
* This class records state for timing out transactions, and runs a thread
* which performs occasional checks to time out transactions.
*
* @version 0.01
*
* @author Simon Holdsworth, IBM Corporation
*
* @see
*/
//----------------------------------------------------------------------------
// CHANGE HISTORY
//
// Version By Change Description
// 0.01 SAJH Initial implementation.
//----------------------------------------------------------------------------
class TimeoutManager {
/**
* Constants which define the types of timeout possible.
*/
static final int CANCEL_TIMEOUT = 0;
static final int NO_TIMEOUT = 0;
static final int ACTIVE_TIMEOUT = 1;
static final int IN_DOUBT_TIMEOUT = 2;
/**
* this attribute indicates whether initialisation has been started.
*/
private static boolean initialised = false;
private static Hashtable pendingTimeouts = new Hashtable();
private static Hashtable indoubtTimeouts = new Hashtable();
private static TimeoutThread timeoutThread = null;
private static boolean timeoutActive = false;
private static boolean quiescing = false;
private static boolean isSetTimeout = false;
/*
Logger to log transaction messages
*/
static Logger _logger = LogDomains.getLogger(TimeoutManager.class, LogDomains.TRANSACTION_LOGGER);
/**
* Initialises the static state of the TimeoutManager class.
*
* @param
*
* @return
*
* @see
*/
synchronized static void initialise() {
// If already initialised, return immediately.
if (initialised) {
return;
}
initialised = true;
// Start the timeout thread.
if (!timeoutActive && timeoutThread == null) {
// timeoutThread = new TimeoutThread();
// timeoutThread.start();
timeoutActive = true;
}
}
static synchronized void initSetTimeout() {
if (isSetTimeout)
return;
isSetTimeout = true;
// to prevent classloader explicitly set context classloader
timeoutThread = new TimeoutThread();
timeoutThread.setContextClassLoader(timeoutThread.getClass().getClassLoader());
timeoutThread.start();
}
/**
* Sets the timeout for the transaction to the specified type and time in
* seconds.
*
* If the type is none, the timeout for the transaction is
* cancelled, otherwise the current timeout for the transaction is modified
* to be of the new type and duration.
*
* @param localTID The local identifier for the transaction.
* @param timeoutType The type of timeout to establish.
* @param seconds The length of the timeout.
*
* @return Indicates success of the operation.
*
* @see
*/
static boolean setTimeout(Long localTID, int timeoutType,
int seconds) {
boolean result = true;
// Modify the timeout to the required type and value.
if (timeoutActive) {
TimeoutInfo timeoutInfo = null;
switch (timeoutType) {
// If the new type is active or in_doubt, then create a
// new TimeoutInfo if necessary, and set up the type and interval.
case TimeoutManager.ACTIVE_TIMEOUT :
if (!isSetTimeout) {
initSetTimeout();
}
timeoutInfo = new TimeoutInfo();
timeoutInfo.expireTime =
new Date().getTime() + seconds * 1000L;
timeoutInfo.localTID = localTID;
timeoutInfo.timeoutType = timeoutType;
pendingTimeouts.put(localTID,timeoutInfo);
break;
case TimeoutManager.IN_DOUBT_TIMEOUT :
if (!isSetTimeout) {
initSetTimeout();
// isSetTimeout = true;
}
timeoutInfo = new TimeoutInfo();
timeoutInfo.expireTime =
new Date().getTime() + seconds * 1000L;
timeoutInfo.localTID = localTID;
timeoutInfo.timeoutType = timeoutType;
indoubtTimeouts.put(localTID,timeoutInfo);
break;
// For any other type, remove the timeout if there is one.
default:
if (!isSetTimeout)
break;
result = (pendingTimeouts.remove(localTID) != null);
if (!result)
result = (indoubtTimeouts.remove(localTID) != null);
// If the transaction service is quiescing and
// there are no more pending timeouts,
// deactivate timeout and stop the timeout thread.
if (quiescing && pendingTimeouts.isEmpty() && indoubtTimeouts.isEmpty()) {
timeoutThread.stop();
timeoutActive = false;
// pendingTimeouts = null;
}
break;
}
} else {
// If timeouts are not active, just return false.
result = false;
}
return result;
}
/**
* Takes appropriate action for a timeout.
*
* The type fo timeout is given, and the transaction represented by the
* Coordinator and its local identifier.
*
* This method does not reference the TimeoutManager's state directly
* and so does not need to be synchronized.
*
* @param localTID The local identifier for the transaction.
* @param timeoutType The type of timeout.
*
* @return
*
* @see
*/
static void timeoutCoordinator(Long localTID, int timeoutType) {
// Look up the Coordinator for the transaction.
// If there is none, then the transaction has already gone.
// Otherwise do something with the transaction.
CoordinatorImpl coord = RecoveryManager.getLocalCoordinator(localTID);
if (coord == null) {
if(_logger.isLoggable(Level.FINER))
{
_logger.logp(Level.FINER,"TimeoutManager","timeoutCoordinator()",
"RecoveryManager.getLocalCoordinator() returned null,"+
"which means txn is done. Setting timeout type to CANCEL_TIMEOUT");
}
TimeoutManager.setTimeout(localTID,
TimeoutManager.CANCEL_TIMEOUT,
0);
} else {
synchronized (coord) {
boolean[] isRoot = new boolean[1];
switch (timeoutType) {
// If active, then attempt to roll the transaction back.
case TimeoutManager.ACTIVE_TIMEOUT :
if(_logger.isLoggable(Level.FINER))
{
_logger.logp(Level.FINER,"TimeoutManager","timeoutCoordinator()",
"TimeoutManager.timeoutCoordinator():case ACTIVE_TIMEOUT"+
"RecoveryManager.getLocalCoordinator() returned non-null,"+
"which means txn is still around. Marking for Rollback the"+
"transaction...: GTID is : " +
((TopCoordinator)coord).superInfo.globalTID.toString());
}
try {
// coord.rollback(true);
coord.rollback_only();
} catch (Throwable exc) {}
break;
// If in doubt, it must be a TopCoordinator.
// In that case replay_completion needs to be driven.
// This is done by telling the TopCoordinator to act as
// if in recovery. The result is then used to
// determine what to do with the Coordinator.
case TimeoutManager.IN_DOUBT_TIMEOUT :
if(_logger.isLoggable(Level.FINER))
{
_logger.logp(Level.FINER,"TimeoutManager","timeoutCoordinator()",
"TimeoutManager.timeoutCoordinator():case IN_DOUBT_TIMEOUT"+
"RecoveryManager.getLocalCoordinator() returned non-null,"+
"which means txn is still around. Invoking recover(boolean)"+
"on TopCoordinator...: GTID is: "+
((TopCoordinator)coord).superInfo.globalTID.toString());
}
Status state = ((TopCoordinator) coord).recover(isRoot);
if (state == Status.StatusUnknown) {
// If the outcome is not currently known, we do
// nothing with the transaction, as we expect to
// eventually get an outcome from the parent.
// GDH put out warning in case this state
// continues for a long time.
_logger.log(Level.WARNING, "jts.transaction_resync_from_orginator_failed");
} else if (state == Status.StatusCommitted) {
// For committed or rolled back, proceed with
// completion of the transaction, regardless of whether
// it is the root or a subordinate. This will
// result in the removal of the in-doubt timeout.
try {
((TopCoordinator)coord).commit();
if (isRoot[0]) {
((TopCoordinator) coord).
afterCompletion(state);
}
} catch (Throwable exc) {}
} else {
// By default, roll the transaction back.
try {
((TopCoordinator) coord).rollback(true);
if (isRoot[0]) {
((TopCoordinator) coord).
afterCompletion(Status.StatusRolledBack);
}
} catch (Throwable exc) {}
}
break;
default:
// Otherwise do nothing.
break;
}
}
}
}
/**
* Periodically checks the existing timeouts.
*
* This is done to discover if any transactions have overrun their allotted
* time. Those which have are returned as an Enumeration.
*
* Note that this method should not do anything that will cause a
* synchronized method in the RecoveryManager to be called, as this could
* cause a deadlock when RecoveryManager methods on other threads call
* setTimeout.
*
* @param
*
* @return The information for transactions which have timed out.
*
* @see
*/
static Enumeration checkTimeouts() {
if (!isSetTimeout)
return null;
Enumeration result = null;
// When woken up, go through all current timeouts and identify those
// which have expired.
if (timeoutActive && ((pendingTimeouts.size() != 0) || (indoubtTimeouts.size() != 0))) {
Vector timedOut = null;
Enumeration timeouts = null;
synchronized (pendingTimeouts) {
timeouts = pendingTimeouts.elements();
while (timeouts.hasMoreElements()) {
TimeoutInfo timeoutInfo = (TimeoutInfo)timeouts.nextElement();
// For each timeout in the list, check whether it has expired.
// If so, look up the Coordinator and roll it back.
if (new Date().getTime() > timeoutInfo.expireTime) {
// Add the TimeoutInfo to the queue of
//those that have timed out.
if (timedOut == null) {
timedOut = new Vector();
}
timedOut.addElement(timeoutInfo);
}
}
}
synchronized (indoubtTimeouts) {
timeouts = indoubtTimeouts.elements();
while (timeouts.hasMoreElements()) {
TimeoutInfo timeoutInfo = (TimeoutInfo)timeouts.nextElement();
// For each timeout in the list, check whether it has expired.
// If so, look up the Coordinator and roll it back.
if (new Date().getTime() > timeoutInfo.expireTime) {
// Add the TimeoutInfo to the queue of
//those that have timed out.
if (timedOut == null) {
timedOut = new Vector();
}
timedOut.addElement(timeoutInfo);
}
}
}
// Enumerate the transactions which have timed out.
if (timedOut != null) {
result = timedOut.elements();
}
}
// The remainder of the timeout processing is not carried out here
// because we would get deadlocked with addCoordinator or
// removeCoordinator that also update the timeout list. Hence the
// returned enumeration, which may be processed with
// no concurrency control.
return result;
}
/**
* @return a set of in-doubt transaction ids.
*/
static XID[] getInDoubtXids() {
synchronized (indoubtTimeouts) {
Vector inDoubtList = new Vector();
Enumeration timeouts = indoubtTimeouts.elements();
while (timeouts.hasMoreElements()) {
TimeoutInfo timeoutInfo = (TimeoutInfo) timeouts.nextElement();
// Look up the Coordinator for the transaction.
// If there is none, then the transaction has already gone.
// Otherwise do something with the transaction.
CoordinatorImpl coord =
RecoveryManager.getLocalCoordinator(timeoutInfo.localTID);
if (coord != null) {
XID xid = new XID();
xid.copy(coord.getGlobalTID());
inDoubtList.addElement(xid);
}
}
return (XID[]) inDoubtList.toArray(new XID[] {});
}
}
/**
* Returns the amount of time left before the given transaction times out.
*
* @param localTID The local identifier for the transaction.
*
* @return The time left. If there is no timeout for the transaction,
* this value will be negative. If the timeout period has been
* exceeded, this value will be zero.
*
* @see
*/
static long timeLeft(Long localTID) {
TimeoutInfo timeoutInfo = (TimeoutInfo) pendingTimeouts.get(localTID);
if (timeoutInfo == null)
timeoutInfo = (TimeoutInfo) indoubtTimeouts.get(localTID);
long result = -1;
if (timeoutInfo != null) {
result = timeoutInfo.expireTime - new Date().getTime();
if (result < 0) {
result = 0;
}
}
return result;
}
/**
* Informs the TimeoutManager that the transaction service
* is being shut down. For immediate shutdown, the timeout thread is
* stopped and all timeout information discarded.
*
* For quiesce, the timeout thread is stopped when there are no running
* transactions left.
*
* @param immediate Indicates whether to stop immediately.
*
* @return
*
* @see
*/
static void shutdown(boolean immediate) {
// For immediate, kill the timeout thread and throw
// away all information. Also, if there are no pending
// timeouts, there is nothing to quiesce so
// shutdown immediately regardless.
if (immediate ||
pendingTimeouts == null || pendingTimeouts.isEmpty()) {
if (timeoutThread != null) {
timeoutThread.stop();
}
if (pendingTimeouts != null) {
pendingTimeouts.clear();
}
pendingTimeouts = null;
timeoutThread = null;
timeoutActive = false;
} else {
quiescing = true;
}
}
/**
* Reports the contents of the TimeoutManager tables.
*$Only required for debug.
*
* @param immediate Indicates whether to stop immediately.
*
* @return
*
* @see
*/
/*
static void report() {
// Report on pendingTimeouts.
if (pendingTimeouts.size() > 0) {
if(_logger.isLoggable(Level.FINER))
{
_logger.logp(Level.FINER,"TimeoutManager","report()",
"TimeoutManager.pendingTimeouts non-empty");
}
Enumeration keys = pendingTimeouts.keys();
while (keys.hasMoreElements()) {
Long localTID = (Long) keys.nextElement();
TimeoutInfo timeInfo =
(TimeoutInfo) pendingTimeouts.get(localTID);
if(_logger.isLoggable(Level.FINER))
{
_logger.logp(Level.FINER,"TimeoutManager","report()",
"localTid :"+localTID+" -> " + timeInfo);
}
}
} else {
if(_logger.isLoggable(Level.FINER))
{
_logger.logp(Level.FINER,"TimeoutManager","report()",
"TimeoutManager.pendingTimeouts empty");
}
}
}
*/
}
/**
* This class records information for a timeout for a transaction.
*
* @version 0.1
*
* @author Simon Holdsworth, IBM Corporation
*
* @see
*/
//----------------------------------------------------------------------------
// CHANGE HISTORY
//
// Version By Change Description
// 0.1 SAJH Initial implementation.
//----------------------------------------------------------------------------
class TimeoutInfo extends Object {
Long localTID = null;
long expireTime = 0;
int timeoutType = TimeoutManager.NO_TIMEOUT;
}
/**
* This class represents a thread on which the TimeoutManager can perform
* timeout checking.
*
* @version 0.01
*
* @author Simon Holdsworth, IBM Corporation
*
* @see
*/
//----------------------------------------------------------------------------
// CHANGE HISTORY
//
// Version By Change Description
// 0.01 SAJH Initial implementation.
//----------------------------------------------------------------------------
class TimeoutThread extends Thread {
private int TIMEOUT_INTERVAL ;
static Logger _logger = LogDomains.getLogger(TimeoutThread.class, LogDomains.TRANSACTION_LOGGER);
/**
* TimeoutThread constructor.
*
* This sets the thread name, and sets the thread to be a daemon thread so
* that it does not prevent the process from terminating.
*
* @param
*
* @return
*
* @see
*/
TimeoutThread() {
setName("JTS Timeout Thread"/*#Frozen*/);
setDaemon(true);
try{
String timeout_interval = Configuration.getPropertyValue(Configuration.TIMEOUT_INTERVAL);
if(timeout_interval!=null){
TIMEOUT_INTERVAL= Integer.parseInt(timeout_interval);
TIMEOUT_INTERVAL*=1000;
if(TIMEOUT_INTERVAL<10000)
TIMEOUT_INTERVAL=10000;
}
else{
TIMEOUT_INTERVAL=10000;
}
}catch(Exception e){
TIMEOUT_INTERVAL=10000;
}
}
/**
* Performs timeout checking on a regular basis (every ten seconds or so).
*
* @param
*
* @return
*
* @see
*/
public void run() {
try {
while (true) {
// Sleep for a while between checks.
Thread.sleep(TIMEOUT_INTERVAL);
// Perform timeout checks, getting a list of timed-out
// transactions.
Enumeration timedOut = TimeoutManager.checkTimeouts();
// Now we must go through the list, telling each
// timed-out Coordinator to do something appropriate.
if (timedOut != null) {
while (timedOut.hasMoreElements()) {
TimeoutInfo timeoutInfo =
(TimeoutInfo) timedOut.nextElement();
// Look up the Coordinator and tell it to roll back
// if it still exists. Note that we rely on the
// Coordinator calling removeCoordinator when it
// has finished, which will remove the timeout from
// the list, and remove other associations as well.
TimeoutManager.
timeoutCoordinator(timeoutInfo.localTID,
timeoutInfo.timeoutType);
}
}
}
} catch (InterruptedException exc) {
_logger.log(Level.INFO,"jts.time_out_thread_stopped");
}
}
}