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/*
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*
* Copyright (c) 1997-2011 Oracle and/or its affiliates. All rights reserved.
*
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* and Distribution License("CDDL") (collectively, the "License"). You
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*
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//----------------------------------------------------------------------------
//
// Module: Terminator.java
//
// Description: Transaction Terminator object implementation.
//
// 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 org.omg.CORBA.*;
import org.omg.PortableServer.*;
import org.omg.PortableServer.POAPackage.ServantAlreadyActive;
import org.omg.PortableServer.POAPackage.ServantNotActive;
import org.omg.CosTransactions.*;
import java.util.logging.Logger;
import java.util.logging.Level;
import com.sun.logging.LogDomains;
import com.sun.jts.utils.LogFormatter;
/**
* The TerminatorImpl interface is our implementation of the
* standard Terminator
* interface. It provides operations to complete a transaction, either
* requesting commitment, or demanding rollback. The TerminatorImpl in this
* design should be a pseudo-object, as we do not want its reference to be
* passed to other processes, and we always want it to be created locally.
*
* @version 0.01
*
* @author Simon Holdsworth, IBM Corporation
*
* @see
*/
//----------------------------------------------------------------------------
// CHANGE HISTORY
//
// Version By Change Description
// 0.01 SAJH Initial implementation.
//----------------------------------------------------------------------------
class TerminatorImpl extends TerminatorPOA implements Terminator {
private static POA poa = null;
private org.omg.CosTransactions.Terminator thisRef = null;
CoordinatorTerm coordTerm = null;
// this is needed to cleanup properly on completion and to avoid leaks.
ControlImpl control = null;
/*
Logger to log transaction messages
*/
static Logger _logger = LogDomains.getLogger(TerminatorImpl.class, LogDomains.TRANSACTION_LOGGER);
/**
* Default TerminatorImpl constructor.
*
* @param
*
* @return
*
* @see
*/
TerminatorImpl() {}
/**
* Creates and initialises a new TerminatorImpl, given the Coordinator
* object for the transaction, and a flag to indicate whether the
* TerminatorImpl represents a subtransaction.
*
* @param coordinator The Coordinator for the transaction.
* @param subtran A flag indicating whether the transaction is a child.
*
* @return
*
* @see
*/
TerminatorImpl (CoordinatorImpl coordinator, boolean subtran) {
// Initialise the instance variables.
coordTerm = new CoordinatorTerm(coordinator, subtran);
}
/**
* sets the control object that points to this terminator.
*
* @param control the control object this terminator belongs to.
*/
void setControl(ControlImpl control) {
/* This method has been newly added (Ram J) */
this.control = control;
}
/**
* This implements the checked behaviour for threads calling
* the terminator object's completion methods directly.
*/
private void preCompletionCheck()
throws TRANSACTION_ROLLEDBACK, INVALID_TRANSACTION {
/* This method has been newly added (Ram J) */
StatusHolder status = new StatusHolder();
// This line assigns the value to the status
control.getLocalTID(status);
// check if the transaction is active, else throw exception
if (status.value != Status.StatusActive) {
if( status.value == Status.StatusRolledBack) {
TRANSACTION_ROLLEDBACK exc =
new TRANSACTION_ROLLEDBACK(0,
CompletionStatus.COMPLETED_NO);
throw exc;
}
INVALID_TRANSACTION exc =
new INVALID_TRANSACTION(MinorCode.Completed,
CompletionStatus.COMPLETED_NO);
throw exc;
}
// check if there is no outstanding requests, else throw exception
// CHECK(Ram J) should a check for active thread associations
// be done here as well ??
if (control.isOutgoing()) {
INVALID_TRANSACTION exc =
new INVALID_TRANSACTION(MinorCode.DeferredActivities,
CompletionStatus.COMPLETED_NO);
throw exc;
}
}
/**
* Requests that the transaction controlled by the Terminator object be
* committed.
* The commit is passed on the the CoordinatorTerm object. If the heuristic
* report flag is set, any heuristic exception raised by the
* root Coordinator is returned to the caller,
* otherwise any heuristic exception is discarded.
*
* This operation is part of the OMG interface and must not return
* any exceptions other than those defined in the OMG interface.
*
* @param reportHeuristics Indicates whether heuristic exceptions
* should be passed to the caller.
*
* @return
*
* @exception HeuristicHazard Heuristic action may have been taken by a
* participant in the transaction.
* @exception HeuristicMixed Heuristic action has been
* taken by a participant in the transaction so part
* of the transaction has been rolled back.
* @exception SystemException The operation failed.
*
* @see
*/
synchronized public void commit(boolean reportHeuristics)
throws HeuristicMixed, HeuristicHazard, TRANSACTION_ROLLEDBACK {
// for checked transaction behaviour (Ram J)
preCompletionCheck();
// Try to commit the transaction. If the client does not want a
// heuristic report, then the transaction can be completed promptly.
// If the client does not want heuristic reporting, and an
// exception was raised, and it is a Heuristic exception, forget it.
// Any other exception that is raised is returned to the client.
try {
coordTerm.commit(!reportHeuristics);
} catch (HeuristicMixed exc) {
if (reportHeuristics) {
control.destroy(); // added (Ram J) for memory Leak fix
throw exc;
}
} catch (HeuristicHazard exc) {
if (reportHeuristics) {
control.destroy(); // added (Ram J) for memory Leak fix
throw exc;
}
} catch (TRANSACTION_ROLLEDBACK exc) {
control.destroy(); // added (Ram J) for memory Leak fix
throw exc;
} catch(LogicErrorException exc) {
control.destroy(); // added (Ram J) for memory Leak fix
INTERNAL ex2 = new INTERNAL(MinorCode.LogicError,
CompletionStatus.COMPLETED_NO);
throw ex2;
} catch (INTERNAL exc) { // added (Ram J) percolate up system excs
control.destroy();
throw (INTERNAL) exc;
}
control.destroy(); // added (Ram J) for memory Leak fix
}
/**
* Demands that the transaction represented by the Terminator object
* be rolled back.
* No heuristics are reported by this operation so if the root Coordinator
* raises a heuristic exception, it is cleared before the operation
* returns to the caller.
*
* This operation is part of the OMG interface and must not return
* any exceptions other than those defined in the OMG interface.
*
* @param
*
* @return
*
* @exception SystemException The operation failed.
*
* @see
*/
public void rollback() throws SystemException {
// for checked transaction behaviour (Ram J)
preCompletionCheck();
// Roll the transaction back.
// If a Heuristic exception was raised, forget it.
// Any other exception that is raised is returned to the client.
try {
coordTerm.rollback();
} catch (HeuristicMixed exc) {
control.destroy(); // added (Ram J) for memory Leak fix
} catch (HeuristicHazard exc) {
control.destroy(); // added (Ram J) for memory Leak fix
} catch (TRANSACTION_ROLLEDBACK exc) {
control.destroy(); // added (Ram J) for memory Leak fix
throw exc;
} catch (LogicErrorException exc) {
control.destroy(); // added (Ram J) for memory Leak fix
INTERNAL ex2 = new INTERNAL(MinorCode.LogicError,
CompletionStatus.COMPLETED_NO);
throw ex2;
} catch (INTERNAL exc) { // added (Ram J) percolate up system excs
control.destroy();
throw (INTERNAL) exc;
}
control.destroy(); // added (Ram J) for memory Leak fix
}
/**
* Returns the CORBA Object which represents this object.
*
* @param
*
* @return The CORBA object.
*
* @see
*/
synchronized final Terminator object() {
if (thisRef == null) {
if (poa == null) {
poa = Configuration.getPOA("transient"/*#Frozen*/);
}
try {
poa.activate_object(this);
thisRef =
TerminatorHelper.narrow(poa.servant_to_reference(this));
//thisRef = (Terminator) this;
} catch(ServantAlreadyActive saexc) {
_logger.log(Level.SEVERE,"jts.create_terminator_object_error",saexc);
String msg = LogFormatter.getLocalizedMessage(_logger,
"jts.create_terminator_object_error");
throw new org.omg.CORBA.INTERNAL(msg);
} catch(ServantNotActive snexc) {
_logger.log(Level.SEVERE,"jts.create_terminator_object_error",snexc);
String msg = LogFormatter.getLocalizedMessage(_logger,
"jts.create_terminator_object_error");
throw new org.omg.CORBA.INTERNAL(msg);
} catch(Exception exc) {
_logger.log(Level.SEVERE,"jts.create_terminator_object_error",exc);
String msg = LogFormatter.getLocalizedMessage(_logger,
"jts.create_terminator_object_error");
throw new org.omg.CORBA.INTERNAL(msg);
}
}
return thisRef;
}
/**
* Destroys the TerminatorImpl object.
*
* @param
*
* @return
*
* @see
*/
synchronized final void destroy() {
if (poa != null && thisRef != null) {
try {
poa.deactivate_object(poa.reference_to_id(thisRef));
thisRef = null;
} catch (Exception exc) {
_logger.log(Level.WARNING,"jts.object_destroy_error","Terminator");
}
}
}
/*
* These methods are there to satisy the compiler. At some point
* when we move towards a tie based model, the org.omg.Corba.Object
* interface method implementation below shall be discarded.
*/
public org.omg.CORBA.Object _duplicate() {
throw new org.omg.CORBA.NO_IMPLEMENT("This is a locally constrained object.");
}
public void _release() {
throw new org.omg.CORBA.NO_IMPLEMENT("This is a locally constrained object.");
}
public boolean _is_a(String repository_id) {
throw new org.omg.CORBA.NO_IMPLEMENT("This is a locally constrained object.");
}
public boolean _is_equivalent(org.omg.CORBA.Object that) {
throw new org.omg.CORBA.NO_IMPLEMENT("This is a locally constrained object.");
}
public boolean _non_existent() {
throw new org.omg.CORBA.NO_IMPLEMENT("This is a locally constrained object.");
}
public int _hash(int maximum) {
throw new org.omg.CORBA.NO_IMPLEMENT("This is a locally constrained object.");
}
public Request _request(String operation) {
throw new org.omg.CORBA.NO_IMPLEMENT("This is a locally constrained object.");
}
public Request _create_request(Context ctx,
String operation,
NVList arg_list,
NamedValue result) {
throw new org.omg.CORBA.NO_IMPLEMENT("This is a locally constrained object.");
}
public Request _create_request(Context ctx,
String operation,
NVList arg_list,
NamedValue result,
ExceptionList exceptions,
ContextList contexts) {
throw new org.omg.CORBA.NO_IMPLEMENT("This is a locally constrained object.");
}
public org.omg.CORBA.Object _get_interface_def() {
throw new org.omg.CORBA.NO_IMPLEMENT("This is a locally constrained object.");
}
public org.omg.CORBA.Policy _get_policy(int policy_type) {
throw new org.omg.CORBA.NO_IMPLEMENT("This is a locally constrained object.");
}
public org.omg.CORBA.DomainManager[] _get_domain_managers() {
throw new org.omg.CORBA.NO_IMPLEMENT("This is a locally constrained object.");
}
public org.omg.CORBA.Object _set_policy_override(
org.omg.CORBA.Policy[] policies,
org.omg.CORBA.SetOverrideType set_add) {
throw new org.omg.CORBA.NO_IMPLEMENT("This is a locally constrained object.");
}
}
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