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/*
 * Copyright (c) 1998, 2018 Oracle and/or its affiliates. All rights reserved.
 *
 * This program and the accompanying materials are made available under the
 * terms of the Eclipse Public License v. 2.0 which is available at
 * http://www.eclipse.org/legal/epl-2.0,
 * or the Eclipse Distribution License v. 1.0 which is available at
 * http://www.eclipse.org/org/documents/edl-v10.php.
 *
 * SPDX-License-Identifier: EPL-2.0 OR BSD-3-Clause
 */

// Contributors:
//     Oracle - initial API and implementation from Oracle TopLink
//     stardif - ClientSession broker ServerSession and change propagation additions
package org.eclipse.persistence.sessions.broker;

import java.util.*;
import java.io.Writer;
import org.eclipse.persistence.queries.*;
import org.eclipse.persistence.descriptors.ClassDescriptor;
import org.eclipse.persistence.descriptors.partitioning.PartitioningPolicy;
import org.eclipse.persistence.exceptions.*;
import org.eclipse.persistence.history.*;
import org.eclipse.persistence.logging.SessionLog;
import org.eclipse.persistence.sequencing.Sequence;
import org.eclipse.persistence.sessions.ExternalTransactionController;
import org.eclipse.persistence.sessions.SessionProfiler;
import org.eclipse.persistence.internal.databaseaccess.*;
import org.eclipse.persistence.internal.identitymaps.*;
import org.eclipse.persistence.sessions.server.*;
import org.eclipse.persistence.internal.sequencing.SequencingHome;
import org.eclipse.persistence.internal.sequencing.Sequencing;
import org.eclipse.persistence.internal.sequencing.SequencingFactory;
import org.eclipse.persistence.internal.sessions.*;

/**
 * 

* Purpose: Provide a single view to a TopLink session that transparently accesses multple databases. *

* Responsibilities: *

    *
  • Broker queries to the appropriate child sessions. *
  • Use a simplified two-stage commit policy on commit of transaction. *
  • Support brokered units of work. *
*/ public class SessionBroker extends DatabaseSessionImpl { protected SessionBroker parent; protected Map sessionNamesByClass; protected Map sessionsByName; protected Sequencing sequencing; protected boolean shouldUseDescriptorAliases; /** * PUBLIC: * Create and return a session broker. * Because a session broker has multiple sessions it does not used a login. */ public SessionBroker() { super(new org.eclipse.persistence.sessions.DatabaseLogin()); this.sessionsByName = new HashMap(); this.sessionNamesByClass = new HashMap(); } /** * INTERNAL: * Create and return a session broker. * Used internally to set the Names by Class from the parent. Reduces garbage. */ protected SessionBroker(Map sessionNames) { super(new org.eclipse.persistence.sessions.DatabaseLogin()); this.sessionsByName = new HashMap(); this.sessionNamesByClass = sessionNames; } /** * PUBLIC: * Return a session broker that behaves as a client session broker. An * acquire session broker is done under the covers on each session inside * the session broker, and a new broker is returned. * * NOTE: when finished with the client broker, it should be released. */ public SessionBroker acquireClientSessionBroker() { return acquireClientSessionBroker(null, null); } /** * PUBLIC: * Return a session broker that behaves as a client session broker. An * acquire session broker is done under the covers on each session inside * the session broker, and a new broker is returned. * * NOTE: when finished with the client broker, it should be released. * @param connectionPolicies maps session name to connectionPolicy to be used for this session; * @param mapOfProperties maps session name to properties to be used for this session. */ public SessionBroker acquireClientSessionBroker(Map connectionPolicies, Map mapOfProperties) { log(SessionLog.FINER, SessionLog.CONNECTION, "acquire_client_session_broker"); SessionBroker clientBroker = copySessionBroker(); clientBroker.parent = this; clientBroker.getIdentityMapAccessorInstance().setIdentityMapManager(getIdentityMapAccessorInstance().getIdentityMapManager()); clientBroker.commitManager = getCommitManager(); clientBroker.commandManager = getCommandManager(); clientBroker.externalTransactionController = getExternalTransactionController(); clientBroker.setServerPlatform(getServerPlatform()); String sessionName; AbstractSession session; Iterator names = this.getSessionsByName().keySet().iterator(); while (names.hasNext()) { sessionName = (String)names.next(); session = getSessionForName(sessionName); if (session.isServerSession()) { ServerSession serverSession = (ServerSession)session; if (serverSession.getProject().hasIsolatedCacheClassWithoutUOWIsolation()) { throw ValidationException.isolatedDataNotSupportedInSessionBroker(sessionName); } ConnectionPolicy connectionPolicy = null; if (connectionPolicies != null) { connectionPolicy = connectionPolicies.get(sessionName); } if (connectionPolicy == null) { connectionPolicy = serverSession.getDefaultConnectionPolicy(); } Map properties = null; if (mapOfProperties != null) { properties = (Map)mapOfProperties.get(sessionName); } clientBroker.registerSession(sessionName, serverSession.acquireClientSession(connectionPolicy, properties)); } else { throw ValidationException.cannotAcquireClientSessionFromSession(); } } clientBroker.initializeSequencing(); return clientBroker; } /** * INTERNAL: * Acquires a special historical session for reading objects as of a past time. */ public org.eclipse.persistence.sessions.Session acquireHistoricalSession(AsOfClause clause) throws ValidationException { if (isServerSessionBroker()) { throw ValidationException.cannotAcquireHistoricalSession(); } // ? logMessage("acquire_client_session_broker", (Object[])null); SessionBroker historicalBroker = copySessionBroker(); historicalBroker.parent = this; String sessionName; AbstractSession session; Iterator names = this.getSessionsByName().keySet().iterator(); while (names.hasNext()) { sessionName = (String)names.next(); session = getSessionForName(sessionName); historicalBroker.registerSession(sessionName, (AbstractSession)session.acquireHistoricalSession(clause)); } return historicalBroker; } /** * INTERNAL: * Called in the end of beforeCompletion of external transaction sychronization listener. * Close the managed sql connection corresponding to the external transaction, * if applicable releases accessor. */ public void releaseJTSConnection() { RuntimeException exception = null; for (Iterator sessionEnum = getSessionsByName().values().iterator(); sessionEnum.hasNext();) { AbstractSession session = (AbstractSession)sessionEnum.next(); try { session.releaseJTSConnection(); } catch (RuntimeException ex) { if (exception == null) { exception = ex; } } } if (exception != null) { throw exception; } } /** * PUBLIC: * Return a unit of work for this session broker. * Acquire a client session broker if is a server session broker. * * @see UnitOfWorkImpl */ public UnitOfWorkImpl acquireUnitOfWork() { if (isServerSessionBroker()) { return acquireClientSessionBroker().acquireUnitOfWork(); } else { return super.acquireUnitOfWork(); } } /** * PUBLIC: * You cannot add a descriptor to a session broker, you must add it to its session. */ public void addDescriptor(ClassDescriptor descriptor) { throw ValidationException.cannotAddDescriptorsToSessionBroker(); } /** * PUBLIC: * You cannot add descriptors to a session broker, you must add them to its session. */ public void addDescriptors(Vector descriptors) throws ValidationException { throw ValidationException.cannotAddDescriptorsToSessionBroker(); } /** * PUBLIC: * You cannot add a project to a session broker, you must add it to its session. */ public void addDescriptors(org.eclipse.persistence.sessions.Project project) throws ValidationException { throw ValidationException.cannotAddDescriptorsToSessionBroker(); } /** * PUBLIC: * You cannot add a sequence to a session broker, you must add it to its session. */ public void addSequence(Sequence sequence) { throw ValidationException.cannotAddSequencesToSessionBroker(); } /** * INTERNAL: * Begin the transaction on all child sessions. */ protected void basicBeginTransaction() throws DatabaseException { for (Iterator sessionEnum = getSessionsByName().values().iterator(); sessionEnum.hasNext();) { AbstractSession session = (AbstractSession)sessionEnum.next(); session.beginTransaction(); } } /** * INTERNAL: * Commit the transaction on all child sessions. * This assumes that the commit of the transaction will not fail because all of the * modification has already taken place and no errors would have occurred. */ protected void basicCommitTransaction() throws DatabaseException { // Do one last check it make sure that all sessions are still connected. for (Iterator sessionEnum = getSessionsByName().values().iterator(); sessionEnum.hasNext();) { AbstractSession session = (AbstractSession)sessionEnum.next(); if (!session.isConnected()) { throw DatabaseException.databaseAccessorNotConnected(); } } for (Iterator sessionEnum = getSessionsByName().values().iterator(); sessionEnum.hasNext();) { AbstractSession session = (AbstractSession)sessionEnum.next(); session.commitTransaction(); } } /** * INTERNAL: * Rollback the transaction on all child sessions. */ protected void basicRollbackTransaction() throws DatabaseException { DatabaseException globalException = null; for (Iterator sessionEnum = getSessionsByName().values().iterator(); sessionEnum.hasNext();) { AbstractSession session = (AbstractSession)sessionEnum.next(); try { session.rollbackTransaction(); } catch (DatabaseException exception) { globalException = exception; } } if (globalException != null) { throw globalException; } } /** * PUBLIC: * Return true if the pre-defined query is defined on the session. */ public boolean containsQuery(String queryName) { boolean containsQuery = getQueries().containsKey(queryName); if (isClientSessionBroker() && (containsQuery == false)) { String sessionName = null; AbstractSession ssession = null; Iterator names = this.getSessionsByName().keySet().iterator(); while (names.hasNext()) { sessionName = (String)names.next(); ssession = getSessionForName(sessionName); if (ssession instanceof org.eclipse.persistence.sessions.server.ClientSession) { if (((ClientSession)ssession).getParent().getBroker().containsQuery(queryName)) { return true; } } } } return containsQuery; } /** * INTERNAL: * Return a copy (not using clone) of a session broker. */ protected SessionBroker copySessionBroker() { SessionBroker broker = new SessionBroker(getSessionNamesByClass()); broker.accessors = getAccessors(); broker.name = getName(); broker.isLoggingOff = isLoggingOff(); broker.sessionLog = getSessionLog(); broker.profiler = getProfiler(); broker.isInProfile = isInProfile(); broker.project = project; if (hasEventManager()) { broker.eventManager = getEventManager().clone(broker); } broker.exceptionHandler = getExceptionHandler(); broker.descriptors = getDescriptors(); broker.shouldPropagateChanges = shouldPropagateChanges; return broker; } /** * INTERNAL: * Return the low-level database accessors. * The database accessor is used for direct database access. * The right accessor for this broker will be returned. */ public Collection getAccessors(Call call, AbstractRecord translationRow, DatabaseQuery query) { if (query.getSessionName() != null) { return getSessionForName(query.getSessionName()).getAccessors(call, translationRow, query); } if (query.getReferenceClass() == null) { // CR#... this occurs if a data query is used without a session-name, needs to throw an error throw QueryException.unnamedQueryOnSessionBroker(null); } //session may be a broker too. Eventually a non session broker will be found return getSessionForClass(query.getReferenceClass()).getAccessors(call, translationRow, query); } /** * ADVANCED: * Answers the past time this session is as of. Only meaningful * for special historical sessions. * @return An immutable object representation of the past time. * null if no clause set, or this a regular session. * @see AsOfClause * @see #acquireHistoricalSession(AsOfClause) * @see org.eclipse.persistence.expressions.Expression#hasAsOfClause Expression.hasAsOfClause() */ public AsOfClause getAsOfClause() { for (Iterator enumtr = getSessionsByName().values().iterator(); enumtr.hasNext();) { return ((AbstractSession)enumtr.next()).getAsOfClause(); } return null; } /** * INTERNAL: * Gets the parent SessionBroker. */ public SessionBroker getParent() { return parent; } /** * INTERNAL: * Gets the session which this query will be executed on. * Generally will be called immediately before the call is translated, * which is immediately before session.executeCall. *

* Since the execution session also knows the correct datasource platform * to execute on, it is often used in the mappings where the platform is * needed for type conversion, or where calls are translated. *

* Is also the session with the accessor. Will return a ClientSession if * it is in transaction and has a write connection. * @return a session with a live accessor * @param query may store session name or reference class for brokers case */ public AbstractSession getExecutionSession(DatabaseQuery query) { AbstractSession sessionByQuery = getSessionForQuery(query); // Always forward to a registered session. return sessionByQuery.getExecutionSession(query); } /** * INTERNAL: * Return the platform for a particular class. */ public Platform getPlatform(Class domainClass) { if (domainClass == null) { return super.getDatasourcePlatform(); } //else return getSessionForClass(domainClass).getDatasourcePlatform(); } /** * PUBLIC: * Return the query from the session pre-defined queries with the given name and argument types. * This allows for common queries to be pre-defined, reused and executed by name. * This method should be used if the Session has multiple queries with the same name but * different arguments. * * The search order is: * for ClientSessionBroker: * the broker; * it's member ClientSessions (but not their parent ServerSessions); * the parent SessionBroker. * * for ServerSession or DatabaseSession SessionBroker: * the broker; * it's member ServerSessions (or DatabaseSessions). */ //Bug#3551263 Override getQuery(String name, Vector arguments) in Session search through //the server session broker as well public DatabaseQuery getQuery(String name, Vector arguments, boolean shouldSearchParent) { // First search the broker DatabaseQuery query = super.getQuery(name, arguments, shouldSearchParent); if(query != null) { return query; } Iterator it = this.sessionsByName.values().iterator(); while(it.hasNext()) { // Note that ClientSession's parent ServerSessions should not be searched at this time query = it.next().getQuery(name, arguments, false); if(query != null) { return query; } } if(shouldSearchParent) { AbstractSession parent = getParent(); if(parent != null) { // Search SessionBroker and it's member ServerSessions return parent.getQuery(name, arguments, true); } } return null; } /** * INTERNAL: * Return the session to be used for the class. */ public AbstractSession getSessionForClass(Class domainClass) throws ValidationException { if (domainClass == null) { // CR2114; we don't have a session name. Return us. return this; } String sessionName = getSessionNamesByClass().get(domainClass); if (sessionName == null) { throw ValidationException.noSessionRegisteredForClass(domainClass); } return getSessionsByName().get(sessionName); } /** * INTERNAL: * Return the session by name. */ public AbstractSession getSessionForName(String name) throws ValidationException { AbstractSession sessionByName = getSessionsByName().get(name); if (sessionByName == null) { throw ValidationException.noSessionRegisteredForName(name); } return sessionByName; } /** * INTERNAL: * Answers the session to be used for the given query. */ protected AbstractSession getSessionForQuery(DatabaseQuery query) { if (query.hasSessionName()) { return getSessionForName(query.getSessionName()); } Class queryClass; if (query.getDescriptor() != null) { queryClass = query.getDescriptor().getJavaClass(); } else { queryClass = query.getReferenceClass(); if (queryClass == null) { throw QueryException.unnamedQueryOnSessionBroker(query); } } return getSessionForClass(queryClass); } /** * INTERNAL: * Return sessions indexed by class, each class can only have one default session. */ protected Map getSessionNamesByClass() { return sessionNamesByClass; } /** * INTERNAL: * Return sessions indexed by name. */ public Map getSessionsByName() { return sessionsByName; } /** * INTERNAL: * Allow each descriptor to initialize any dependencies on this session. * This is done in two passes to allow the inheritance to be resolved first. * Normally the descriptors are added before login, then initialized on login. * Should not be called on client SessoionBroker */ public void initializeDescriptors() { // ClientSession initializes sequencing during construction, // however DatabaseSession and ServerSession normally call initializeSequencing() // in initializeDescriptors method. // Because initializeDescriptors() is not called for a session-member of a SessionBroker, // initializeSequencing() for the sessions should be called here. for (Iterator enumtr = getSessionsByName().values().iterator(); enumtr.hasNext();) { DatabaseSessionImpl databaseSession = (DatabaseSessionImpl)enumtr.next(); String sessionName = databaseSession.getName(); // Initialize partitioning policies. for (PartitioningPolicy policy : databaseSession.getProject().getPartitioningPolicies().values()) { policy.initialize(this); } // Copy jpa queries from member sessions into SessionBroker before descriptors' initialization. if (!databaseSession.isJPAQueriesProcessed()) { for(DatabaseQuery query: databaseSession.getJPAQueries()) { query.setSessionName(sessionName); getJPAQueries().add(query); } //prevent them from being re-added in the case of a logout/login databaseSession.setJPAQueriesProcessed(true); } // assign session name to each query Iterator> it = databaseSession.getQueries().values().iterator(); while(it.hasNext()) { List queryList = it.next(); for(int i=0; i < queryList.size(); i++) { queryList.get(i).setSessionName(sessionName); } } databaseSession.initializeSequencing(); } if(hasExternalTransactionController()) { getExternalTransactionController().initializeSequencingListeners(); } super.initializeDescriptors(); // Must reset project options to session broker project, as initialization occurs // with local projects. for (Iterator enumtr = getSessionsByName().values().iterator(); enumtr.hasNext();) { DatabaseSessionImpl databaseSession = (DatabaseSessionImpl)enumtr.next(); if (databaseSession.getProject().hasGenericHistorySupport()) { getProject().setHasGenericHistorySupport(true); } if (databaseSession.getProject().hasIsolatedClasses()) { getProject().setHasIsolatedClasses(true); } if (databaseSession.getProject().hasMappingsPostCalculateChangesOnDeleted()) { getProject().setHasMappingsPostCalculateChangesOnDeleted(true); } if (databaseSession.getProject().hasNonIsolatedUOWClasses()) { getProject().setHasNonIsolatedUOWClasses(true); } if (databaseSession.getProject().hasProxyIndirection()) { getProject().setHasProxyIndirection(true); } getProject().getDefaultReadOnlyClasses().addAll(databaseSession.getProject().getDefaultReadOnlyClasses()); } // ServerSessionBroker doesn't need sequencing. // Sequencing should be obtained either from the ClientSessionBroker or directly // from the ClientSession. if (isServerSessionBroker()) { sequencing = null; } } /** * INTERNAL: * Set up the IdentityMapManager. This method allows subclasses of Session to override * the default IdentityMapManager functionality. */ public void initializeIdentityMapAccessor() { this.identityMapAccessor = new SessionBrokerIdentityMapAccessor(this, new IdentityMapManager(this)); } /** * INTERNAL: * Return the results from exeucting the database query. * the arguments should be a database row with raw data values. * Find the correct child session to broker the query to, * and return the result of the session executing the query. */ public Object internalExecuteQuery(DatabaseQuery query, AbstractRecord row) throws DatabaseException, QueryException { AbstractSession sessionByQuery = getSessionForQuery(query); // Note, this disables local profilers. return sessionByQuery.internalExecuteQuery(query, row); } /** * INTERNAL: * Returns true if the session is a session Broker. */ public boolean isBroker() { return true; } /** * PUBLIC: * Return if this session is a client session broker. */ public boolean isClientSessionBroker() { for (Iterator sessionEnum = getSessionsByName().values().iterator(); sessionEnum.hasNext();) { AbstractSession session = (AbstractSession)sessionEnum.next(); if (session.isClientSession()) { return true; } } return false; } /** * PUBLIC: * Return if all sessions are still connected to the database. */ public boolean isConnected() { if ((getSessionsByName() == null) || (getSessionsByName().isEmpty())) { return false; } for (Iterator sessionEnum = getSessionsByName().values().iterator(); sessionEnum.hasNext();) { AbstractSession session = (AbstractSession)sessionEnum.next(); if (!session.isConnected()) { return false; } } return true; } /** * PUBLIC: * Return if this session is a server session broker. */ public boolean isServerSessionBroker() { for (Iterator sessionEnum = getSessionsByName().values().iterator(); sessionEnum.hasNext();) { AbstractSession session = (AbstractSession)sessionEnum.next(); if (session.isServerSession()) { return true; } } return false; } /** * INTERNAL: * Return if this session is a session broker. */ public boolean isSessionBroker() { return true; } /** * PUBLIC: * Connect to the database using the predefined login. * This connects all of the child sessions and expects that they are in a valid state to be connected. */ public void login() throws DatabaseException { preConnectDatasource(); // Connection all sessions and initialize for (Iterator sessionEnum = getSessionsByName().values().iterator(); sessionEnum.hasNext();) { DatabaseSessionImpl session = (DatabaseSessionImpl)sessionEnum.next(); if (!session.isConnected()) { session.login(); } } postConnectDatasource(); } /** * PUBLIC: * Connect to the database using the predefined login. * During connection, attempt to auto detect the required database platform. * This method can be used in systems where for ease of use developers have * EclipseLink autodetect the platform. * To be safe, however, the platform should be configured directly. * The login must have been assigned when or after creating the session. * */ public void loginAndDetectDatasource() throws DatabaseException { preConnectDatasource(); // Connection all sessions and initialize for (Iterator sessionEnum = getSessionsByName().values().iterator(); sessionEnum.hasNext();) { DatabaseSessionImpl session = (DatabaseSessionImpl)sessionEnum.next(); if (!session.isConnected()) { if(session.getDatasourcePlatform().getClass().getName().equals("org.eclipse.persistence.platform.database.DatabasePlatform")) { session.loginAndDetectDatasource(); } else { session.login(); } } } postConnectDatasource(); } /** * PUBLIC: * Connect to the database using the predefined login. * This connects all of the child sessions and expects that they are in a valid state to be connected. */ public void login(String userName, String password) throws DatabaseException { preConnectDatasource(); // Connection all sessions and initialize for (Iterator sessionEnum = getSessionsByName().values().iterator(); sessionEnum.hasNext();) { DatabaseSessionImpl session = (DatabaseSessionImpl)sessionEnum.next(); session.getDatasourceLogin().setUserName(userName); session.getDatasourceLogin().setPassword(password); if (!session.isConnected()) { session.login(); } } postConnectDatasource(); } /** * PUBLIC: * Disconnect from all databases. * * @exception EclipseLinkException if a transaction is active, you must rollback any active transaction before logout. * @exception DatabaseException the database will also raise an error if their is an active transaction, * or a general error occurs. */ public void logout() throws DatabaseException { if(!isLoggedIn) { return; } if (this.eventManager != null) { this.eventManager.preLogout(this); } if (!isClientSessionBroker()) { for (Iterator sessionEnum = getSessionsByName().values().iterator(); sessionEnum.hasNext();) { DatabaseSessionImpl session = (DatabaseSessionImpl)sessionEnum.next(); session.logout(); } } this.sequencing = null; this.isLoggedIn = false; if (this.eventManager != null) { this.eventManager.postLogout(this); } } /** * INTERNAL: * Rise postLogin events for member sessions and the SessionBroker. */ public void postLogin() { for (Iterator sessionEnum = getSessionsByName().values().iterator(); sessionEnum.hasNext();) { DatabaseSessionImpl session = (DatabaseSessionImpl)sessionEnum.next(); session.postLogin(); } super.postLogin(); } /** * PUBLIC: * Register the session under its name. * All of the session's descriptors must have already been registered. * DatabaseSession/ServerSession should not be connected and descriptors should not be initialized. */ public void registerSession(String name, AbstractSession session) { session.setIsInBroker(true); getSessionsByName().put(name, session); session.setBroker(this); session.setName(name); if (session.isDatabaseSession()) { if (hasEventManager()) { // add broker's listeners to member sessions. // each time a listener added to broker it is added to member sessions, too // (see SessionEventManager#addListener) therefore at all times // each member session has all broker's listeners. session.getEventManager().getListeners().addAll(getEventManager().getListeners()); } // The keys/classes must also be used as some descriptors may be under multiple classes. Iterator descriptors = session.getDescriptors().values().iterator(); Iterator classes = session.getDescriptors().keySet().iterator(); while (descriptors.hasNext()) { ClassDescriptor descriptor = (ClassDescriptor)descriptors.next(); Class descriptorClass = (Class)classes.next(); getSessionNamesByClass().put(descriptorClass, name); if(this.shouldUseDescriptorAliases) { String alias = descriptor.getAlias(); if(alias != null && alias.length() > 0) { ClassDescriptor anotherDescriptor = getDescriptorForAlias(alias); if(anotherDescriptor != null) { if(anotherDescriptor.getJavaClass() != descriptor.getJavaClass()) { throw ValidationException.sharedDescriptorAlias(alias, descriptor.getJavaClass().getName(), anotherDescriptor.getJavaClass().getName()); } } addAlias(alias, descriptor); } } getDescriptors().put(descriptorClass, descriptor); } } } /** * PUBLIC: * Register the session under its name. * All of the session's descriptors must have already been registered. * DatabaseSession/ServerSession should not be connected and descriptors should not be initialized. */ public void registerSession(String name, org.eclipse.persistence.sessions.Session session) { registerSession(name, (AbstractSession)session); } /** * PUBLIC: * Release the session. * This does nothing by default, but allows for other sessions such as the ClientSession to do something. */ public void release() { if (isClientSessionBroker()) { log(SessionLog.FINER, SessionLog.CONNECTION, "releasing_client_session_broker"); } RuntimeException exception = null; AbstractSession session; for (Iterator enumtr = getSessionsByName().values().iterator(); enumtr.hasNext();) { session = (AbstractSession)enumtr.next(); try { session.release(); } catch (RuntimeException ex) { if (exception == null) { exception = ex; } } } super.release(); if (exception != null) { throw exception; } } /** * INTERNAL: * A query execution failed due to an invalid query. * Re-connect and retry the query. */ @Override public Object retryQuery(DatabaseQuery query, AbstractRecord row, DatabaseException databaseException, int retryCount, AbstractSession executionSession) { // If not in a transaction and has a write connection, must release it if invalid. if (isClientSessionBroker()) { for (Iterator it = getSessionsByName().values().iterator(); it.hasNext();) { ClientSession clientSession = (ClientSession)it.next(); clientSession.getParent().releaseInvalidClientSession(clientSession); } } return super.retryQuery(query, row, databaseException, retryCount, executionSession); } /** * INTERNAL: * Used for JTS integration internally by ServerPlatform. */ public void setExternalTransactionController(ExternalTransactionController externalTransactionController) { super.setExternalTransactionController(externalTransactionController); for (AbstractSession session : getSessionsByName().values()) { DatabaseSessionImpl dbSession = (DatabaseSessionImpl)session; dbSession.setExternalTransactionController(externalTransactionController); } } /** * PUBLIC: * set the integrityChecker. IntegrityChecker holds all the ClassDescriptor Exceptions. */ public void setIntegrityChecker(IntegrityChecker integrityChecker) { super.setIntegrityChecker(integrityChecker); for (Iterator sessionEnum = getSessionsByName().values().iterator(); sessionEnum.hasNext();) { AbstractSession session = (AbstractSession)sessionEnum.next(); session.setIntegrityChecker(integrityChecker); } } /** * PUBLIC: * Set the session log. * * @see #logMessage */ public void setSessionLog(SessionLog log) { super.setSessionLog(log); for (Iterator sessionEnum = getSessionsByName().values().iterator(); sessionEnum.hasNext();) { AbstractSession session = (AbstractSession)sessionEnum.next(); session.setSessionLog(log); } } /** * PUBLIC: * Set the message log. * * @see #logMessage */ public void setLog(Writer log) { super.setLog(log); for (Iterator sessionEnum = getSessionsByName().values().iterator(); sessionEnum.hasNext();) { AbstractSession session = (AbstractSession)sessionEnum.next(); session.setLog(log); } } /** * PUBLIC: * Set the profiler for the session. * This allows for performance operations to be profiled. */ public void setProfiler(SessionProfiler profiler) { super.setProfiler(profiler); for (Iterator sessionEnum = getSessionsByName().values().iterator(); sessionEnum.hasNext();) { AbstractSession session = (AbstractSession)sessionEnum.next(); session.setProfiler(profiler); } } /** * INTERNAL: * Set sessions indexed by class, each class can only have one default session. */ protected void setSessionNameByClass(HashMap sessionNameByClass) { this.sessionNamesByClass = sessionNameByClass; } /** * INTERNAL: * Set sessions indexed by name. */ public void setSessionsByName(Map sessionsByName) { this.sessionsByName = sessionsByName; } /** * INTERNAL: * Set isSynchronized flag to indicate that members of session broker are synchronized. * This method should only be called by setSynchronized method of UnitOfWork * obtained from either DatabaseSession Broker or ClientSession Broker. */ public void setSynchronized(boolean synched) { if(!isServerSessionBroker()) { super.setSynchronized(synched); Iterator itSessions = getSessionsByName().values().iterator(); while(itSessions.hasNext()) { ((AbstractSession)itSessions.next()).setSynchronized(synched); } } } /** * INTERNAL: * This method notifies the accessor that a particular sets of writes has * completed. This notification can be used for such thing as flushing the * batch mechanism */ public void writesCompleted() { for (Iterator sessionEnum = getSessionsByName().values().iterator(); sessionEnum.hasNext();) { AbstractSession session = (AbstractSession)sessionEnum.next(); if (!session.isConnected()) { throw DatabaseException.databaseAccessorNotConnected(); } } for (Iterator sessionEnum = getSessionsByName().values().iterator(); sessionEnum.hasNext();) { AbstractSession session = (AbstractSession)sessionEnum.next(); session.writesCompleted(); } } /** * ADVANCED: * Creates sequencing object for the session broker. * Typically there is no need for the user to call this method - * it is called by login() and acquireClientSessionBroker. */ public void initializeSequencing() { sequencing = SequencingFactory.createSequencing(this); } /** * PROTECTED: * Session broker doesn't have SequencingHome. */ protected SequencingHome getSequencingHome() { return null; } /** * PUBLIC: * Return the Sequencing object used by the session. */ public Sequencing getSequencing() { return sequencing; } /** * INTERNAL: * Returns a number of member sessions that require sequencing callback. * Always returns 0 if sequencing is not connected. */ public int howManySequencingCallbacks() { if(this.isClientSessionBroker()) { return getParent().howManySequencingCallbacks(); } else { int nCallbacks = 0; Iterator itSessions = getSessionsByName().values().iterator(); while(itSessions.hasNext()) { if(((DatabaseSessionImpl)itSessions.next()).isSequencingCallbackRequired()) { nCallbacks++; } } return nCallbacks; } } /** * INTERNAL: * Indicates whether SequencingCallback is required. * Always returns false if sequencing is not connected. */ public boolean isSequencingCallbackRequired() { return howManySequencingCallbacks() > 0; } /** * PUBLIC: * Indicates whether descriptors should use aliasDescriptors map. * If aliasDescriptors is used then descriptors' aliases should be unique. */ public boolean shouldUseDescriptorAliases() { return this.shouldUseDescriptorAliases; } /** * PUBLIC: * Indicates whether descriptors should use aliasDescriptors map. * If aliasDescriptors is used then descriptors' aliases should be unique. */ public void setShouldUseDescriptorAliases(boolean shouldUseDescriptorAliases) { this.shouldUseDescriptorAliases = shouldUseDescriptorAliases; } }





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