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//----------------------------------------------------------------------------
//
// Module:      CurrentTransaction.java
//
// Description: Transaction to thread association management.
//
// 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.
//----------------------------------------------------------------------------

package com.sun.jts.CosTransactions;

// Import required classes.

import java.util.*;

import org.omg.CORBA.*;
import org.omg.CosTransactions.*;

import com.sun.jts.codegen.otsidl.*;
import com.sun.jts.trace.*;
import java.util.logging.Logger;
import java.util.logging.Level;
import com.sun.logging.LogDomains;
import com.sun.jts.utils.LogFormatter;

import com.sun.enterprise.transaction.jts.JavaEETransactionManagerJTSDelegate;

/**This class manages association of transactions with threads in a process,
 * and associated state/operations.
 *
 * @version 0.01
 *
 * @author Simon Holdsworth, IBM Corporation
 *
 * @see
*/
//----------------------------------------------------------------------------
// CHANGE HISTORY
//
// Version By     Change Description
//   0.01  SAJH   Initial implementation.
//-----------------------------------------------------------------------------

public class CurrentTransaction {
    private static Hashtable threadContexts = new Hashtable(Configuration.EXPECTED_CONCURRENT_THREADS);
    private static Vector suspended = new Vector(Configuration.EXPECTED_CONCURRENT_TRANSACTIONS);

    //store the suspended and associated transactions support only if stats are required
    static boolean statsOn=false;

    private static Hashtable importedTransactions = new Hashtable();
    private static RegisteredStatics statics = null;
    //private static ORB orb = null;
    //private static TransactionFactory localFactory = null;

    // Static arrays for output parameters.

    private static ThreadLocal m_tid=new ThreadLocal();
    //private static boolean[]    outBoolean = new boolean[1];
    //private static int[]        outInt     = new int[1];
    //private static StatusHolder outStatus  = new StatusHolder();

    //$ This constant is used to represent the empty transaction context.  It
    //$ should not be required when the TRANSACTION_REQUIRED exception is
    //$ supported.
	/*
		Logger to log transaction messages
	*/ 
	static Logger _logger = LogDomains.getLogger(CurrentTransaction.class, LogDomains.TRANSACTION_LOGGER);
   
	private static PropagationContext emptyContext =
        new PropagationContext(0,new TransIdentity(null,null,new otid_t(-1,0,new byte[0])),
                               new TransIdentity[0],null);

    /**Initialises the static state of the CurrentTransaction class.
     *
     * @param
     *
     * @return
     *
     * @see
     */
    static  void initialise() {

        // Initialise the static state for the class.

    }

    /**Sets up the thread association for a Control object.
     * 

* If the thread association already exists for the thread under which the * operation was invoked and the stacking flag is set, the existing Control * is stacked behind the given one, which is made the current one. *

* If the association already exists and the stacking flag is not set, no * association is changed and the operation returns false. *

* For XA support, when an association is started or ended, all * registered StaticResource objects are informed of the association change. * * @param control The Control object to be made the current one. * @param stack Indicates whether the current Control should be stacked. * * @return Indicates success of the operation. * * @see */ static boolean setCurrent( ControlImpl control, boolean stack ) { boolean result = false; // Ensure that the current thread association is valid. //boolean[] outBoolean = new boolean[1]; ControlImpl current = (ControlImpl)m_tid.get(); /*if( outBoolean[0] ) { }*/ // If there is a current Control object, and we have not been asked to stack // it, return FALSE to indicate that we cannot replace it. // Otherwise stack the current Control object behind the new one, which // becomes the current Control for the thread. if( current != null ) { if( stack ) { // XA support: If the remove operation was successful, inform all registered // StaticResource objects of the end of the thread association. // Allow any exception to percolate to the caller. // This is done first so that if there is an error, we don't leave the // transaction associated. if( statics != null ) statics.distributeEnd(current,false); // Push the given Control object onto the current one, and remove the // current association. StatusHolder outStatus = new StatusHolder(); control.pushControl(current,outStatus); if(statsOn){ Thread thread = Thread.currentThread(); result = (threadContexts.remove(thread) != null); } else result=true; m_tid.set(null); // The parent transaction has effectively been suspended - add it to the // set of suspended transactions. if(statsOn) suspended.addElement(current); } } else result = true; // If there is no current Control, then just make the new one current. if( result ) { // XA support: If the set_current operation was successful, inform all // registered StaticResource objects of the new thread association. // Allow any exception to percolate to the caller. // This is done first so that if there is an error, we don't leave the // transaction associated. if( statics != null ) statics.distributeStart(control,stack); // Update the thread to Control mapping for the new Control. if(statsOn){ Thread thread = Thread.currentThread(); threadContexts.put(thread,control); } m_tid.set(control); // Remove the Control from the set of suspended Control objects. if(statsOn) suspended.removeElement(control); // Increment the association count for the control object control.incrementAssociation(); } return result; } /**Removes the association for the thread under which the operation was * invoked. *

* The (previously) associated Control object is returned. *

* If there was no association, the operation returns a NULL reference. *

* If the stacking flag is set, and there is an associated Control, the stacked * context (if any) becomes the current context when the operation completes. *

* For XA support, when an association is started or ended, all * registered StaticResource objects are informed of the change. * * @param unstack Indicates whether the stacked Control object should be made * the current one. * * @return The current Control object. * * @see */ static ControlImpl endCurrent( boolean unstack ) { // Ensure that the current thread association is valid. //boolean[] outBoolean = new boolean[1]; ControlImpl result = (ControlImpl)m_tid.get(); /*if( outBoolean[0] ) { }*/ // If there is a current Control, remove its association. If we were asked // to unstack, get the stacked Control, if any. If there is one, set up the // thread association. if( result != null ){ if(statsOn){ Thread thread = Thread.currentThread(); threadContexts.remove(thread); } m_tid.set(null); // Decrement the count of associations for the Control object. result.decrementAssociation(); // Add the Control to the set of suspended Control objects, if this is // a suspend and not an end. if( !unstack && statsOn) suspended.addElement(result); // XA support: If there was a current Control, inform all registered // StaticResource objects of the end of the thread association. // Allow any exception to percolate to the caller. if( statics != null ) statics.distributeEnd(result,unstack); // If we were asked to unstack, get the stacked Control, if any. If there // is one, set up the thread association. // Now that we have identified the first active ancestor, proceed to unstack // its parent. if( unstack ) { StatusHolder outStatus = new StatusHolder(); ControlImpl stacked = result.popControl(outStatus); if( stacked != null && outStatus.value == Status.StatusActive ) { // XA support: If there is a stacked context, inform all registered // StaticResource objects of the new thread association. // Allow any exception to percolate to the caller. // This is done first so that if there is an error, we don't leave the // transaction associated. if( statics != null ) statics.distributeStart(stacked,false); // The stacked Control is no longer suspended so is removed from the // set of suspended transactions. if(statsOn){ Thread thread = Thread.currentThread(); threadContexts.put(thread,stacked); suspended.removeElement(stacked); } m_tid.set(stacked); } } } // If there is no current Control, just return NULL. else result = null; return result; } // COMMENT (Ram J) 12/18/2000 // This is being accessed from OTS interceptors package to // check to see if there is a current transaction or not. public static boolean isTxAssociated() { //Thread thread = Thread.currentThread(); //ControlImpl result = (ControlImpl) threadContexts.get(thread); //return (result != null); return (m_tid.get()!=null); } /**Ensures that an association with an aborted transaction is dealt with cleanly. * * * TN - do not dissociate thread even if it's aborted!! * * If the current Control object represents a transaction that has been * aborted, this method replaces the association by one with the first * ancestor that has not been aborted, if any, or no association, and the * method returns true as the output parameter. Otherwise the method returns * false as the output parameter. *

* If there is a current Control object in either case it is returned, * otherwise null is returned. * * @param aborted A 1-element array which will hold the aborted indicator. * * @return The current Control object. * * @see */ private static ControlImpl endAborted( boolean[/*1*/] aborted, boolean endAssociation) { // Get the current thread identifier, and the corresponding Control object // if there is one. boolean completed = true; aborted[0] = false; ControlImpl result = (ControlImpl)m_tid.get(); // If there is a current Control object, and it represents a transaction that // has been aborted, then we need to end its association with the current // thread of control. if( result != null ) try { completed = (result.getTranState() != Status.StatusActive); } catch( Throwable exc ) { _logger.log(Level.FINE,"", exc); } if( result != null && completed ) { if (endAssociation) { synchronized(CurrentTransaction.class){ if(statsOn){ Thread thread = Thread.currentThread(); threadContexts.remove(thread); } m_tid.set(null); // XA support: If there was a current IControl, inform all registered // StaticResource objects of the end of the thread association. // Allow any exception to percolate to the caller. if( statics != null ) statics.distributeEnd(result,false); // Discard all stacked controls that represent aborted or unrecognised // transactions. result = result.popAborted(); // If there is a valid ancestor, make it the current one. if( result != null ) { m_tid.set(result); if(statsOn){ Thread thread = Thread.currentThread(); threadContexts.put(thread,result); suspended.removeElement(result); } } // XA support: If there is a stacked context, inform all registered // StaticResource objects of the new thread association. // Allow any exception to percolate to the caller. if( statics != null ) statics.distributeStart(result,false); } } aborted[0] = true; } if(_logger.isLoggable(Level.FINEST)) { Thread thread = Thread.currentThread(); _logger.logp(Level.FINEST,"CurrentTransaction","endAborted()", "threadContexts.get(thread) returned " + result + " for current thread " + thread); } return result; } /**Adds the given Control object to the set of Control objects suspended in * the process. * * @param control The Control object which has been suspended. * * @return * * @see */ static void addSuspended( ControlImpl control ) { if(statsOn) suspended.addElement(control); } /**Removes the given Control object from the set of those suspended in the * process. The operation returns FALSE if the Control object has not been * suspended. * * @param control The Control object which has been resumed/destroyed. * * @return Indicates success of the operation. * * @see */ static boolean removeSuspended( ControlImpl control ) { boolean result = true; if(statsOn) result=suspended.removeElement(control); return result; } /**Returns the current Control object. *

* That is, the Control object that corresponds to the thread * under which the operation was invoked. If there is no such association the * null value is returned. * * @param * * @return The current Control object. * * * @see */ public static ControlImpl getCurrent() throws TRANSACTION_ROLLEDBACK { //boolean[] outBoolean = new boolean[1]; ControlImpl result = (ControlImpl)m_tid.get(); return result; } /**Returns a reference to the current Coordinator. *

* That is, the Coordinator object that corresponds to the * thread under which the operation was invoked. * If there is no such association the null value is returned. *

* Note that this operation can be optimised so that the Coordinator reference is * stored along with the Control reference when the thread association is set up. * * @param * * @return The current Coordinator. * * @exception TRANSACTION_ROLLEDBACK The Coordinator has already been rolled * back. * @exception Unavailable The Coordinator object is not available. * * @see */ static Coordinator getCurrentCoordinator() throws TRANSACTION_ROLLEDBACK, Unavailable { /* This method has been rewritten (Ram J) * in order to enable current.get_status() to be called * on a completed transaction, and get the completed status. * Previously, the first call to get_status() will return * the right completion status, and the second call to get_status * would return StatusNoTransaction, since the first call would end * the thread - tx association. */ // Get the current thread identifier, and the corresponding // Control object if there is one. ControlImpl control = (ControlImpl)m_tid.get(); Coordinator result = null; if (control != null) { if( Configuration.isLocalFactory()) { result = (Coordinator) ((ControlImpl) control).get_localCoordinator(); } else { // this call may throw TRANSACTION_ROLLEDBACK // or INVALID_TRANSACTION result = control.get_coordinator(); } } return result; } /**Returns the number of thread associations currently active for the given * transaction identifier. *

* A boolean value indicating whether there are outstanding requests is returned * as an output parameter. * * @param localTID The local transaction identifier. * @param outstanding A 1-element array which will indicate outstanding requests. * * @return The number of active thread associations. * * @see */ static int numActive( Long localTID, boolean[/*1*/] outstanding ) { if(!statsOn){ throw new NO_IMPLEMENT("statistics not on"); } int result = 0; outstanding[0] = false; StatusHolder outStatus = new StatusHolder(); // First check whether there are any outstanding requests. // Count all of the Control objects that have the same local TID as that given. Enumeration controls = threadContexts.elements(); while( controls.hasMoreElements() ) { ControlImpl current = (ControlImpl)controls.nextElement(); // If the Control object represents a transaction that has been completed, // don't count it. outStatus.value = Status.StatusRolledBack; try { Long currentLocalTID = current.getLocalTID(outStatus); if( outStatus.value == Status.StatusActive ) if( currentLocalTID.equals(localTID) ) { outstanding[0] |= current.isOutgoing(); result++; } } catch( Throwable exc ) { _logger.log(Level.FINE,"", exc); } } return result; } /**Registers the given StaticResource object. *

* The StaticResource object will be informed whenever any association of * a transaction with a thread is started or ended. * * @param obj The StaticResource being registered. * * @return * * @see */ synchronized static void registerStatic( StaticResource obj ) { // If the RegisteredStatics instance variable has not been created at this // point, create it. if( statics == null ) statics = new RegisteredStatics(); // Attempt to add the StaticResource reference to those already registered. statics.addStatic(obj); } /**Returns all the transactions in the system that are currently suspended * in the form of a sequence of Control objects. * * @param * * @return The list of suspended Control objects. * * @see */ static Control[] getSuspendedTransactions() { if(!statsOn){ throw new NO_IMPLEMENT("statistics not on"); } Control[] result = null; // Copy the contents of the suspended set into the array. int suspNum = suspended != null ? suspended.size() : 0; if( suspNum > 0 ) { result = new Control[suspNum]; Enumeration controls = suspended.elements(); int pos = 0; while( controls.hasMoreElements() ) result[pos++] = ((ControlImpl)controls.nextElement()).object(); } else result = new Control[0]; return result; } /**Returns all the transactions in the system that are currently running * (i.e. not suspended) in the form of a sequence of Control objects. * * @param * * @return The list of running Control objects. * * @see */ static Control[] getRunningTransactions() { if(!statsOn){ throw new NO_IMPLEMENT("statistics not on"); } Control[] result = null; // Copy the Control objects which have thread associations into the result. int runNum = threadContexts != null ? threadContexts.size() : 0; if( runNum > 0 ) { result = new Control[runNum]; Enumeration controls = threadContexts.elements(); int pos = 0; while( controls.hasMoreElements() ) result[pos++] = ((ControlImpl)controls.nextElement()).object(); } else result = new Control[0]; return result; } /**Returns all the transactions in the system that are currently running * or suspended in the form of a sequence of Control objects. * * @param * * @return The list of all Control objects. * * @see */ static Control[] getAllTransactions() { if(!statsOn){ throw new NO_IMPLEMENT("statistics not on"); } Control[] result = null; int allNum = threadContexts != null ? threadContexts.size()+suspended.size() : 0; if( allNum > 0 ) { result = new Control[allNum]; // Copy the contents of the suspended set into the array. Enumeration controls = suspended.elements(); int pos = 0; while( controls.hasMoreElements() ) result[pos++] = ((ControlImpl)controls.nextElement()).object(); // Copy the Control objects which have thread associations into the result. controls = threadContexts.elements(); while( controls.hasMoreElements() ) result[pos++] = ((ControlImpl)controls.nextElement()).object(); } else result = new Control[0]; return result; } /**Informs the CurrentTransaction that a request is being sent. *

* Returns the transaction context that should be established for the object in * the remote process. * * @param id The request identifier. * @param holder The completed context object. * * @return * * @exception TRANSACTION_ROLLEDBACK The current transaction has been rolled * back. The message should not be sent and TRANSACTION_ROLLEDBACK should * be returned to the caller. * @exception TRANSACTION_REQUIRED There is no current transaction. * * @see */ static void sendingRequest( int id, PropagationContextHolder holder ) throws TRANSACTION_ROLLEDBACK, TRANSACTION_REQUIRED { // Empty out the context. // Ensure that the cached reference to the ORB is set up, and that the Any // value in the context is initialised. //$ The following is necessary for the context to be marshallable. It is a //$ waste of time when there is no transaction, in which case we should be //$ throwing the TRANSACTION_REQUIRED exception. // COMMENT(Ram J) 11/19/2000 This is taken care of by the PI OTS // interceptors, so this has been commented out. If no current // transaction is available simply return. The PI OTS interceptor will // either raise a TRANSACTION_REQUIRED exception if the target policy // requires a transaction, else it will not provide a tx context. /* if( emptyContext.implementation_specific_data == null ) { if( orb == null ) orb = Configuration.getORB(); emptyContext.implementation_specific_data = orb.create_any(); emptyContext.implementation_specific_data.insert_boolean(false); } holder.value = emptyContext; */ // Ensure that the current Control object is valid. Return immediately if // not. boolean[] outBoolean = new boolean[1]; ControlImpl current = endAborted(outBoolean, false); if( outBoolean[0] ) { TRANSACTION_ROLLEDBACK exc = new TRANSACTION_ROLLEDBACK(0,CompletionStatus.COMPLETED_NO); throw exc; } // Throw the TRANSACTION_REQUIRED exception if there is no current transaction. if( current == null ) { //$ TRANSACTION_REQUIRED exc = new TRANSACTION_REQUIRED(); //$ if( trc != null ) trc.event(EVT_THROW).data(exc).write(); //$ throw exc; return; } // Get the the context from the Control object. // If the context is not available, then indicate that there is no transaction. try { holder.value = current.getTXContext(); } // If the Coordinator is inactive, throw the INVALID_TRANSACTION exception, // as this will be because the transaction is not able to do transactional // work. catch (Unavailable exc) { INVALID_TRANSACTION ex2 = new INVALID_TRANSACTION(0,CompletionStatus.COMPLETED_NO); ex2.initCause(exc); throw ex2; } // If the Coordinator has rolled back, allow the TRANSACTION_ROLLEDBACK exception, // to pass to the caller. catch( TRANSACTION_ROLLEDBACK exc ) { endCurrent(true); current.destroy(); throw (TRANSACTION_ROLLEDBACK)exc.fillInStackTrace(); } // Any other exception is unexpected. Assume there is no transaction. catch( Throwable exc ) { _logger.log(Level.FINE,"", exc); } // Increase the count of outgoing requests for this transaction, if the // Control object is not a proxy. // COMMENT(Ram J) 11/25/2000 With the PI based OTS 1.2 implementation, // exception replies | location forwarded responses may not carry back // a tx svc context (since the server OTS interceptor send point may // not have been called. In such a case, it is impossible to enforce // checked behaviour. The next revision of OTS 1.2 should address this, // and provide a solution to the checked behaviour in a PI based OTS // implementation. Then, these checks shall be enabled. //current.incrementOutgoing(); } /**Informs the CurrentTransaction that a reply has been received. * * @param id The request identifier. * @param context The PropagationContext from the message. * @param ex The exception on the message. * * @return * * @exception WrongTransaction The context returned on the reply is for a * different transaction from the current one on the thread. * * @see */ static void receivedReply( int id, PropagationContext context, org.omg.CORBA.Environment ex ) throws org.omg.CORBA.WrongTransaction { // Look up the current Control object. //Thread thread = Thread.currentThread(); ControlImpl current = (ControlImpl)m_tid.get(); // If there is no current transaction, or an exception was raised, then just // return. if( current == null ) { return; } //$ If there is an active exception, report it. // OMG OTS issue 1819, if there is a system exception mark the // transaction for rollback java.lang.Exception ctxExc = ex.exception(); if (ctxExc instanceof SystemException) { Coordinator currentCoord = null; try { if (Configuration.isLocalFactory()) { currentCoord = current.get_localCoordinator(); } else { currentCoord = current.get_coordinator(); } } catch (Unavailable exc) { _logger.log(Level.FINE,"", exc); } if (currentCoord == null) { return; // no coord, cannot mark tx for rollback } try { currentCoord.rollback_only(); } catch (Inactive exc) { _logger.log(Level.FINE,"", exc); } // COMMENT (Ram J) (11/24/2000) This has been commented out since // the exception reply could have a tx context. Do further checks. //return; } // Return if there is no context on the message. if( context == null || context.current == null || context.current.coord == null || context.current.otid.formatID == -1 ) { return; } // Get the global id from the current context. If the transaction is not // active, then end the current association. StatusHolder outStatus = new StatusHolder(); outStatus.value = Status.StatusRolledBack; GlobalTID globalTID = null; try { globalTID = new GlobalTID(current.getGlobalTID(outStatus)); } catch( Throwable exc ) { _logger.log(Level.FINE,"", exc); } // If the global identifier is NULL, then the Control object is unable to provide // us with checking behaviour. We do not check in this case. if( globalTID != null ) { if( outStatus.value != Status.StatusActive ) { endCurrent(true); current.destroy(); // org.omg.CORBA.WrongTransaction exc = new org.omg.CORBA.WrongTransaction(0,CompletionStatus.COMPLETED_YES); org.omg.CORBA.WrongTransaction exc = new org.omg.CORBA.WrongTransaction(); throw exc; } // If the global id is different from the one in the context, then raise the // org.omg.CORBA.WrongTransaction exception. if( !globalTID.isSameTID(context.current.otid) ) { // org.omg.CORBA.WrongTransaction exc = new org.omg.CORBA.WrongTransaction(0,CompletionStatus.COMPLETED_YES); org.omg.CORBA.WrongTransaction exc = new org.omg.CORBA.WrongTransaction(); throw exc; } } // If the Control object is not a proxy, then decrement the outgoing count. // COMMENT(Ram J) 11/25/2000 With the PI based OTS 1.2 implementation, // exception replies | location forwarded responses may not carry back // a tx svc context (since the server OTS interceptor send point may // not have been called. In such a case, it is impossible to enforce // checked behaviour. The next revision of OTS 1.2 should address this, // and provide a solution to the checked behaviour in a PI based OTS // implementation. Then, these checks shall be enabled. //current.decrementOutgoing(); } /**Informs the CurrentTransaction that a request has been received. *

* The request contains the transaction context that should be established * for the object. * * @param id The request identifier. * @param context The PropagationContext from the message. * * @return * * @see */ static void receivedRequest( int id, PropagationContext context ) { // Return if there is no context on the message. // If the transaction identifier in the context is NULL, just return. if( context == null || context.current == null || context.current.otid.formatID == -1 ) { return; } // Init TransactionManagerImpl in the JTS delegate, so that all calls from // this point forward use it correctly. JavaEETransactionManagerJTSDelegate.getInstance().initXA(); // Use a local factory to recreate the transaction locally. //if( localFactory == null ) //localFactory = Configuration.getFactory(); //Control current = localFactory.recreate(context); Control current = Configuration.getFactory().recreate(context); // Record the imported transaction. importedTransactions.put(Thread.currentThread(),new GlobalTID(context.current.otid)); // Create a new Control and associate it with the thread try { ControlImpl contImpl = null; if (Configuration.isLocalFactory()) { contImpl = (ControlImpl) current; } else { contImpl = ControlImpl.servant(JControlHelper.narrow(current)); } setCurrent(contImpl,false); } // If any exception was thrown during that lot, then we have failed to // create a subordinate. Do something drastic. catch( Throwable exc ) { _logger.log(Level.WARNING,"jts.unable_to_create_subordinate_coordinator", exc); String msg = LogFormatter.getLocalizedMessage(_logger, "jts.unable_to_create_subordinate_coordinator"); throw new org.omg.CORBA.INTERNAL(msg); } } /**Informs the object's Coordinator that a reply is being sent to the client. * * @param id The request identifier. * @param holder The context to be returned on the reply. * * @exception INVALID_TRANSACTION The current transaction has outstanding work * on this reply, and has been marked rollback-only, or the reply is returning * when a different transaction is active from the one active when the request * was imported. * @exception TRANSACTION_ROLLEDBACK The current transaction has already been * rolled back. * * @see */ static void sendingReply( int id, PropagationContextHolder holder ) throws INVALID_TRANSACTION, TRANSACTION_ROLLEDBACK { // Zero out context information. // Ensure that the cached reference to the ORB is set up, and that the Any // value in the context is initialised. //$ The following is necessary for the context to be marshallable. It is a //$ waste of time when there is no transaction, in which case we should be //$ throwing the TRANSACTION_REQUIRED exception (?). if( emptyContext.implementation_specific_data == null ) { ORB orb = Configuration.getORB(); emptyContext.implementation_specific_data = orb.create_any(); emptyContext.implementation_specific_data.insert_boolean(false); } // COMMENT(Ram J) There is no need to send an empty context, if a tx // is not available. The PI based OTS hooks will not send a tx context // in the reply. /* holder.value = emptyContext; */ // Ensure that the current Control object is valid. Return immediately if not. boolean[] outBoolean = new boolean[1]; ControlImpl current = endAborted(outBoolean, true); // end association if( outBoolean[0] ) { importedTransactions.remove(Thread.currentThread()); TRANSACTION_ROLLEDBACK exc = new TRANSACTION_ROLLEDBACK(0,CompletionStatus.COMPLETED_YES); throw exc; } // Get the global identifier of the transaction that was imported into this // thread. If there is none, that is an error. Thread thread = Thread.currentThread(); GlobalTID importedTID = (GlobalTID)importedTransactions.remove(thread); // If there is no import information, and no current transaction, then return // the empty context. if( importedTID == null && current == null ) { return; } // Check that the current transaction matches the one that was imported. StatusHolder outStatus = new StatusHolder(); try { if( importedTID == null || current == null || !importedTID.isSameTID(current.getGlobalTID(outStatus)) || outStatus.value != Status.StatusActive ) { INVALID_TRANSACTION exc = new INVALID_TRANSACTION(MinorCode.WrongContextOnReply,CompletionStatus.COMPLETED_YES); throw exc; } } catch( SystemException ex ) { _logger.log(Level.FINE,"", ex); INVALID_TRANSACTION exc = new INVALID_TRANSACTION(MinorCode.WrongContextOnReply,CompletionStatus.COMPLETED_YES); throw exc; } //$Get the Coordinator reference. CoordinatorImpl coord = null; Coordinator coordRef = null; try { if (Configuration.isLocalFactory()) { coord = (CoordinatorImpl) current.get_localCoordinator(); } else { coordRef = current.get_coordinator(); coord = CoordinatorImpl.servant(coordRef); } // _logger.log(Level.FINE,"Servant = "+coord); // Check the Coordinator before sending the reply. // We must do this before ending the thread association to allow the // Coordinator to take advantage of registration on reply if available. // Note that if the Coordinator returns forgetMe, the global identifier // will have been destroyed at this point. CoordinatorImpl forgetParent = null; int[] outInt = new int[1]; //StatusHolder outStatus = new StatusHolder(); try { forgetParent = coord.replyAction(outInt); } catch( Throwable exc ) { _logger.log(Level.FINE,"", exc); } int replyAction = outInt[0]; if( replyAction == CoordinatorImpl.activeChildren ) { try { coord.rollback_only(); } catch( Throwable ex ) { _logger.log(Level.FINE,"", ex); } INVALID_TRANSACTION exc = new INVALID_TRANSACTION(MinorCode.UnfinishedSubtransactions, CompletionStatus.COMPLETED_YES); throw exc; } // End the current thread association. endCurrent(false); // If the transaction needs to be cleaned up, do so now. // We ignore any exception the end_current may have raised in this case. // The Control object is destroyed before the Coordinator so that it is not // in the suspended set when the Coordinator is rolled back. if( replyAction == CoordinatorImpl.forgetMe ) { current.destroy(); coord.cleanUpEmpty(forgetParent); } // Otherwise, we have to check this reply. else { if( current.isAssociated() || current.isOutgoing() ) { try { coord.rollback_only(); } catch( Throwable exc ) { _logger.log(Level.FINE,"", exc); } INVALID_TRANSACTION exc = new INVALID_TRANSACTION(MinorCode.DeferredActivities, CompletionStatus.COMPLETED_YES); throw exc; } current.destroy(); } } catch( INVALID_TRANSACTION exc ) { throw exc; } catch( Unavailable exc ) { _logger.log(Level.FINE,"", exc); // Ignore } catch( SystemException exc ) { _logger.log(Level.FINE,"", exc); // Ignore } // Create a context with the necessary information. // All we propagate back is the transaction id and implementation specific data. holder.value = new PropagationContext(0,new TransIdentity(null,null,importedTID.realTID), new TransIdentity[0],emptyContext.implementation_specific_data); } /** * Recreates a transaction based on the information contained in the * transaction id (tid) and associates the current thread of control with * the recreated transaction. * * @param tid the transaction id. */ public static void recreate(GlobalTID tid, int timeout) { // check if there is any concurrent activity if (RecoveryManager.readAndUpdateTxMap(tid) == false) { throw new INVALID_TRANSACTION( MinorCode.TX_CONCURRENT_WORK_DISALLOWED, CompletionStatus.COMPLETED_NO); } // recreate the transaction try { // Use a local factory to recreate the transaction locally. TransactionFactoryImpl factory = (TransactionFactoryImpl) Configuration.getFactory(); Control current = factory.recreate(tid, timeout); // Record the imported transaction. importedTransactions.put(Thread.currentThread(), tid); // Create a new Control and associate it with the thread ControlImpl contImpl = null; if (Configuration.isLocalFactory()) { contImpl = (ControlImpl) current; } else { contImpl = ControlImpl.servant(JControlHelper.narrow(current)); } setCurrent(contImpl,false); } catch (Throwable exc) { RecoveryManager.removeFromTxMap(tid); // remove tx id from map _logger.log(Level.WARNING,"jts.unable_to_create_subordinate_coordinator", exc); String msg = LogFormatter.getLocalizedMessage(_logger, "jts.unable_to_create_subordinate_coordinator"); throw new INVALID_TRANSACTION(msg, MinorCode.TX_RECREATE_FAILED, CompletionStatus.COMPLETED_MAYBE); } } /** * Disassociates the current thread of control from the specified * transaction. * * @param tid the transaction id. */ public static void release(GlobalTID tid) { Thread thread = (Thread) RecoveryManager.getThreadFromTxMap(tid); if (thread == null || (thread != Thread.currentThread())) { // the current thread is not in tx, so simply return. return; } else { RecoveryManager.removeFromTxMap(tid); } // Ensure that the current Control object is valid. boolean[] outBoolean = new boolean[1]; ControlImpl control = endAborted(outBoolean, true); // end association if (outBoolean[0]) { importedTransactions.remove(Thread.currentThread()); return; // thread is not associated with tx, simply return } // Get the global identifier of the transaction that was imported into // this thread. If there is none, that is an error. GlobalTID importedTID = (GlobalTID) importedTransactions.remove(thread); // Check that the current transaction matches the one that was imported. StatusHolder outStatus = new StatusHolder(); try { if (importedTID == null || control == null || !importedTID.isSameTID(control.getGlobalTID(outStatus)) || outStatus.value != Status.StatusActive) { INVALID_TRANSACTION exc = new INVALID_TRANSACTION(MinorCode.WrongContextOnReply, CompletionStatus.COMPLETED_YES); throw exc; } } catch (SystemException ex) { _logger.log(Level.FINE,"", ex); INVALID_TRANSACTION exc = new INVALID_TRANSACTION(MinorCode.WrongContextOnReply, CompletionStatus.COMPLETED_YES); throw exc; } // End the current thread association. endCurrent(false); control.destroy(); } /**Ends all thread associations for the given transaction. * * @param globalTID The global transaction identifier. * @param aborted Indicates whether the transaction has aborted. * * @return * * @see */ //not used anywhere synchronized static void endAll( GlobalTID globalTID, boolean aborted ) { throw new NO_IMPLEMENT("not implemented"); // Modify any thread associations there may be for the transaction, to // indicate that the transaction has ended. /*StatusHolder outStatus = new StatusHolder(); Enumeration controls = threadContexts.elements(); int cz = threadContexts.size(); // Arun 9/27/99 while (cz-- > 0) { ControlImpl control = (ControlImpl)controls.nextElement(); // If the Control object corresponds to the transaction being removed, then // inform it that the transaction has completed. try { if( globalTID.equals(control.getGlobalTID(outStatus)) && outStatus.value == Status.StatusActive ) control.setTranState(aborted ? Status.StatusRolledBack : Status.StatusCommitted); } catch( Throwable exc ) { } } // Modify any suspended Control objects there may be for the transaction, to // indicate that the transaction has ended. controls = suspended.elements(); cz = suspended.size(); // Arun 9/27/99 while(cz-- > 0) { try { ControlImpl control = (ControlImpl)controls.nextElement(); // If the Control object corresponds to the transaction being removed, then // inform it that the transaction has completed. if( globalTID.equals(control.getGlobalTID(outStatus)) && outStatus.value == Status.StatusActive ) control.setTranState(aborted ? Status.StatusRolledBack : Status.StatusCommitted); } catch( Throwable exc ) { } }*/ } /**Informs the CurrentTransaction that the transaction service is being shut * down. * * For immediate shutdown, * * For quiesce, * * @param immediate Indicates whether to stop immediately. * * @return * * @see */ static void shutdown( boolean immediate ) { //$Continue with shutdown/quiesce. } /**Dumps the static state of the class. * * @param * * @return * * @see */ static void dump() { } /**Reports the contents of the CurrentTransaction tables. *$Only required for debug. * * @param immediate Indicates whether to stop immediately. * * @return * * @see */ /* static void report() { // Report on threadContexts. if( threadContexts.size() > 0 ) { _logger.log(Level.FINE,"CurrentTransaction.threadContexts non-empty"); Enumeration keys = threadContexts.keys(); while( keys.hasMoreElements() ) { Thread thread = (Thread)keys.nextElement(); ControlImpl contImpl = (ControlImpl)threadContexts.get(thread); if(_logger.isLoggable(Level.FINE)) _logger.log(Level.FINE,"Thread :"+thread+" -> "+contImpl) } } else _logger.log(Level.FINE,"CurrentTransaction.threadContexts empty"); // Report on importedTransactions. if( importedTransactions.size() > 0 ) { _logger.log(Level.FINE,"CurrentTransaction.importedTransactions non-empty"); Enumeration keys = importedTransactions.keys(); while( keys.hasMoreElements() ) { Thread thread = (Thread)keys.nextElement(); GlobalTID tid = (GlobalTID)importedTransactions.get(thread); if(_logger.isLoggable(Level.FINE)) _logger.log(Level.FINE,"Thread :"+thread+" -> "+tid) } } else _logger.log(Level.FINE,"CurrentTransaction.importedTransactions empty"); // Report on suspended if( suspended.size() > 0 ) { _logger.log(Level.FINE,"CurrentTransaction.suspended non-empty"); Enumeration keys = suspended.elements(); while( keys.hasMoreElements() ) { ControlImpl contImpl = (ControlImpl)keys.nextElement(); _logger.log(Level.FINE,"ControlImpl:"+contImpl); } } else _logger.log(Level.FINE,"CurrentTransaction.suspended empty"); } */ }





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