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// Copyright (c) 1998, 2006, Oracle. All rights reserved.  
package oracle.toplink.essentials.threetier;

import java.util.*;
import oracle.toplink.essentials.internal.databaseaccess.*;
import oracle.toplink.essentials.queryframework.*;
import oracle.toplink.essentials.sessions.DatasourceLogin;
import oracle.toplink.essentials.sessions.Login;
import oracle.toplink.essentials.sessions.UnitOfWork;
import oracle.toplink.essentials.exceptions.*;
import oracle.toplink.essentials.internal.sequencing.SequencingCallback;
import oracle.toplink.essentials.internal.sequencing.SequencingServer;
import oracle.toplink.essentials.logging.SessionLog;
import oracle.toplink.essentials.internal.sessions.*;
import oracle.toplink.essentials.internal.sessions.AbstractRecord;
import oracle.toplink.essentials.internal.sessions.AbstractSession;

/**
 * Implementation of Server
 * INTERNAL:
 * The public interface should be used.
 * 

* Purpose: A single session that supports multiple user/clients connection at the same time. *

* Description: This session supports a shared session that can be used by multiple users * or clients in a three-tiered application. It brokers client sessions to allow read and write access * through a unified object cache. The server session provides a shared read only database connection that * is used by all of its client for reads. All changes to objects and the database must be done through * a unit of work acquired from the client session, this allows the changes to occur in a transactional object * space and under a exclusive database connection. *

* Responsibilities: *

    *
  • Connecting/disconnecting the default reading login. *
  • Reading objects and maintaining the object cache. *
  • Brokering client sessions. *
  • Disabling database modification through the shared connection. *
* @see ClientSession * @see UnitOfWork */ public class ServerSession extends DatabaseSessionImpl implements Server { protected ConnectionPool readConnectionPool; protected Map connectionPools; protected ConnectionPolicy defaultConnectionPolicy; protected int maxNumberOfNonPooledConnections; protected int numberOfNonPooledConnectionsUsed; public static final int MAX_WRITE_CONNECTIONS = 10; public static final int MIN_WRITE_CONNECTIONS = 5; /** * INTERNAL: * Create and return a new default server session. * Used for EJB SessionManager to instantiate a server session */ public ServerSession() { super(); this.connectionPools = new HashMap(10); } /** * PUBLIC: * Create and return a new server session. * By giving the login information on creation this allows the session to initialize itself * to the platform given in the login. This constructor does not return a connected session. * To connect the session to the database login() must be sent to it. The login(userName, password) * method may also be used to connect the session, this allows for the user name and password * to be given at login but for the other database information to be provided when the session is created. * By default the server session uses a default connection pool with 5 min 10 max number of connections * and a max number 50 non-pooled connections allowed. */ public ServerSession(Login login) { this(new oracle.toplink.essentials.sessions.Project(login)); } /** * PUBLIC: * Create and return a new server session. * Configure the min and max number of connections for the default pool. */ public ServerSession(Login login, int minNumberOfPooledConnection, int maxNumberOfPooledConnection) { this(new oracle.toplink.essentials.sessions.Project(login), minNumberOfPooledConnection, maxNumberOfPooledConnection); } /** * PUBLIC: * Create and return a new server session. * Configure the default connection policy to be used. * This policy is used on the "acquireClientSession()" protocol. */ public ServerSession(Login login, ConnectionPolicy defaultConnectionPolicy) { this(new oracle.toplink.essentials.sessions.Project(login), defaultConnectionPolicy); } /** * PUBLIC: * Create and return a new server session. * By giving the project information on creation this allows the session to initialize itself * to the platform given in the login. This constructor does not return a connected session. * To connect the session to the database login() must be sent to it. The login(userName, password) * method may also be used to connect the session, this allows for the user name and password * to be given at login but for the other database information to be provided when the session is created. * By default the server session uses a default connection pool with 5 min 10 max number of connections * and a max number 50 non-pooled connections allowed. */ public ServerSession(oracle.toplink.essentials.sessions.Project project) { this(project, MIN_WRITE_CONNECTIONS, MAX_WRITE_CONNECTIONS); } /** * PUBLIC: * Create and return a new server session. * Configure the min and max number of connections for the default pool. */ public ServerSession(oracle.toplink.essentials.sessions.Project project, int minNumberOfPooledConnection, int maxNumberOfPooledConnection) { this(project, new ConnectionPolicy("default")); ConnectionPool pool = null; if (project.getDatasourceLogin().shouldUseExternalConnectionPooling()) { pool = new ExternalConnectionPool("default", project.getDatasourceLogin(), this); } else { pool = new ConnectionPool("default", project.getDatasourceLogin(), minNumberOfPooledConnection, maxNumberOfPooledConnection, this); } this.connectionPools.put("default", pool); } /** * PUBLIC: * Create and return a new server session. * Configure the min and max number of connections for the default pool. * Use the login from the project for the write pool. Use the passed * in login for the read pool, if specified, or the project login if not. * * @param project the project associated with this session * @param minNumberOfPooledConnection the minimum number of connections in the pool * @param maxNumberOfPooledConnection the maximum number of connections in the pool * @param readLogin the login used to create the read connection pool */ public ServerSession(oracle.toplink.essentials.sessions.Project project, int minNumberOfPooledConnection, int maxNumberOfPooledConnection, oracle.toplink.essentials.sessions.Login readLogin) { this(project, new ConnectionPolicy("default"), readLogin); ConnectionPool pool = null; if (project.getDatasourceLogin().shouldUseExternalConnectionPooling()) { pool = new ExternalConnectionPool("default", project.getDatasourceLogin(), this); } else { pool = new ConnectionPool("default", project.getDatasourceLogin(), minNumberOfPooledConnection, maxNumberOfPooledConnection, this); } this.connectionPools.put("default", pool); } /** * PUBLIC: * Create and return a new server session. * Configure the min and max number of connections for the default pool. * Use the login from the project for the write pool. Use the passed * in login for the read pool, if specified, or the project login if not. * Use the sequenceLogin, if specified, for creating a connection pool * to be used by sequencing through SequencingConnectionHandler * sequenceLogin *MUST*: * 1. specify *NON-JTS* connections (such as NON_JTS driver or read-only datasource); * 2. sequenceLogin.shouldUseExternalTransactionController()==false * * @param project the project associated with this session * @param minNumberOfPooledConnection the minimum number of connections in the pool * @param maxNumberOfPooledConnection the maximum number of connections in the pool * @param readLogin the login used to create the read connection pool * @param sequenceLogin the login used to create a connection pool for sequencing */ public ServerSession(oracle.toplink.essentials.sessions.Project project, int minNumberOfPooledConnection, int maxNumberOfPooledConnection, oracle.toplink.essentials.sessions.Login readLogin, oracle.toplink.essentials.sessions.Login sequenceLogin) { this(project, new ConnectionPolicy("default"), readLogin, sequenceLogin); ConnectionPool pool = null; if (project.getDatasourceLogin().shouldUseExternalConnectionPooling()) { pool = new ExternalConnectionPool("default", project.getDatasourceLogin(), this); } else { pool = new ConnectionPool("default", project.getDatasourceLogin(), minNumberOfPooledConnection, maxNumberOfPooledConnection, this); } this.connectionPools.put("default", pool); } /** * PUBLIC: * Create and return a new server session. * Configure the default connection policy to be used. * This policy is used on the "acquireClientSession()" protocol. */ public ServerSession(oracle.toplink.essentials.sessions.Project project, ConnectionPolicy defaultConnectionPolicy) { super(project); this.connectionPools = new HashMap(10); this.defaultConnectionPolicy = defaultConnectionPolicy; this.maxNumberOfNonPooledConnections = 50; this.numberOfNonPooledConnectionsUsed = 0; setReadConnectionPool(project.getDatasourceLogin()); } /** * PUBLIC: * Create and return a new server session. * Configure the default connection policy to be used. * This policy is used on the "acquireClientSession()" protocol. * Use the readLogin, if specified, for logging into the read * connection pool. */ public ServerSession(oracle.toplink.essentials.sessions.Project project, ConnectionPolicy defaultConnectionPolicy, oracle.toplink.essentials.sessions.Login readLogin) { super(project); this.connectionPools = new HashMap(10); this.defaultConnectionPolicy = defaultConnectionPolicy; this.maxNumberOfNonPooledConnections = 50; this.numberOfNonPooledConnectionsUsed = 0; Login login = (readLogin != null) ? readLogin : project.getDatasourceLogin(); setReadConnectionPool(login); } /** * PUBLIC: * Create and return a new server session. * Configure the default connection policy to be used. * This policy is used on the "acquireClientSession()" protocol. * Use the readLogin, if specified, for logging into the read * connection pool. * Use the sequenceLogin, if specified, for creating a connection pool * to be used by sequencing through SequencingConnectionHandler * sequenceLogin *MUST*: * 1. specify *NON-JTS* connections (such as NON_JTS driver or read-only datasource); * 2. sequenceLogin.shouldUseExternalTransactionController()==false * */ public ServerSession(oracle.toplink.essentials.sessions.Project project, ConnectionPolicy defaultConnectionPolicy, oracle.toplink.essentials.sessions.Login readLogin, oracle.toplink.essentials.sessions.Login sequenceLogin) { this(project, defaultConnectionPolicy, readLogin); if (sequenceLogin != null) { //** sequencing refactoring getSequencingControl().setShouldUseSeparateConnection(true); getSequencingControl().setLogin(sequenceLogin); } } /** * INTERNAL: * Allocate the client's connection resource. */ public void acquireClientConnection(ClientSession clientSession) throws DatabaseException, ConcurrencyException { if (clientSession.getConnectionPolicy().isPooled()) { ConnectionPool pool = (ConnectionPool)getConnectionPools().get(clientSession.getConnectionPolicy().getPoolName()); Accessor connection = pool.acquireConnection(); clientSession.setWriteConnection(connection); getEventManager().postAcquireConnection(connection); } else { // This method is synchronized, so while is not required, only if. synchronized (this) { while (getNumberOfNonPooledConnectionsUsed() >= getMaxNumberOfNonPooledConnections()) { try { wait();// Notify is called when connections are released. } catch (InterruptedException exception) { throw ConcurrencyException.waitFailureOnServerSession(exception); } } setNumberOfNonPooledConnectionsUsed(getNumberOfNonPooledConnectionsUsed() + 1); clientSession.setWriteConnection(clientSession.getLogin().buildAccessor()); clientSession.connect(); } } } /** * PUBLIC: * Return a client session for this server session. * Each user/client connected to this server session must acquire there own client session * to communicate to the server through. * This method allows for a client session to be acquired sharing the same login as the server session. */ public ClientSession acquireClientSession() throws DatabaseException { return acquireClientSession((ConnectionPolicy)getDefaultConnectionPolicy().clone()); } /** * PUBLIC: * Return a client session for this server session. * Each user/client connected to this server session must acquire there own client session * to communicate to the server through. * This method allows for a client session to be acquired sharing its connection from a pool * of connection allocated on the server session. * By default this uses a lazy connection policy. */ public ClientSession acquireClientSession(String poolName) throws DatabaseException { return acquireClientSession(new ConnectionPolicy(poolName)); } /** * PUBLIC: * Return a client session for this server session. * Each user/client connected to this server session must acquire there own client session * to communicate to the server through. * The client must provide its own login to use, and the client session returned * will have its own exclusive database connection. This connection will be used to perform * all database modification for all units of work acquired from the client session. * By default this does not use a lazy connection policy. */ public ClientSession acquireClientSession(Login login) throws DatabaseException { return acquireClientSession(new ConnectionPolicy(login)); } /** * PUBLIC: * Return a client session for this server session. * The connection policy specifies how the client session's connection will be acquired. */ public ClientSession acquireClientSession(ConnectionPolicy connectionPolicy) throws DatabaseException, ValidationException { if (!isConnected()) { throw ValidationException.loginBeforeAllocatingClientSessions(); } log(SessionLog.FINER, SessionLog.CONNECTION, "client_acquired"); if (!connectionPolicy.isPooled() && (connectionPolicy.getLogin() == null)) { //the user has passed in a connection policy with no login info. Use the //default info from the default connection policy connectionPolicy.setPoolName(getDefaultConnectionPolicy().getPoolName()); connectionPolicy.setLogin(getDefaultConnectionPolicy().getLogin()); } if (connectionPolicy.isPooled()) { ConnectionPool pool = (ConnectionPool)getConnectionPools().get(connectionPolicy.getPoolName()); if (pool == null) { throw ValidationException.poolNameDoesNotExist(connectionPolicy.getPoolName()); } connectionPolicy.setLogin((Login)pool.getLogin().clone()); } ClientSession client = null; if (getProject().hasIsolatedClasses()) { client = new IsolatedClientSession(this, connectionPolicy); } else { client = new ClientSession(this, connectionPolicy); } if (!connectionPolicy.isLazy()) { acquireClientConnection(client); } return client; } /** * PUBLIC: * Return a unit of work for this session. * The unit of work is an object level transaction that allows * a group of changes to be applied as a unit. * First acquire a client session as server session does not allow direct units of work. * * @see UnitOfWork */ public UnitOfWork acquireUnitOfWork() { return acquireClientSession().acquireUnitOfWork(); } /** * PUBLIC: * Add the connection pool. * Connections are pooled to share and restrict the number of database connections. */ public void addConnectionPool(String poolName, Login login, int minNumberOfConnections, int maxNumberOfConnections) throws ValidationException { if (minNumberOfConnections > maxNumberOfConnections) { throw ValidationException.maxSizeLessThanMinSize(); } if (isConnected()) { throw ValidationException.poolsMustBeConfiguredBeforeLogin(); } ConnectionPool pool = null; if (login.shouldUseExternalConnectionPooling()) { pool = new ExternalConnectionPool(poolName, login, this); } else { pool = new ConnectionPool(poolName, login, minNumberOfConnections, maxNumberOfConnections, this); } addConnectionPool(pool); } /** * PUBLIC: * Connection are pooled to share and restrict the number of database connections. */ public void addConnectionPool(ConnectionPool pool) { pool.setOwner(this); getConnectionPools().put(pool.getName(), pool); } /** * INTERNAL: * Called after transaction is completed (committed or rolled back) */ public void afterTransaction(boolean committed, boolean isExternalTransaction, Accessor accessor) { SequencingCallback callback = getSequencingHome().getSequencingCallback(); if (callback != null) { callback.afterTransaction(accessor, committed); } } /** * INTERNAL: * Return a read connection from the read pool. * Note that depending on the type of pool this may be a shared or exclusive connection. * Each query execution is assigned a read connection. */ public Accessor allocateReadConnection() { Accessor connection = getReadConnectionPool().acquireConnection(); getEventManager().postAcquireConnection(connection); return connection; } /** * INTERNAL: * Startup the server session, also startup all of the connection pools. */ public void connect(boolean updatePlatform) { // make sure pools correspond to their logins updateStandardConnectionPools(); if (updatePlatform){ //we autodetected the platform for (Iterator pools = getConnectionPools().values().iterator(); pools.hasNext();){ ((DatasourceLogin)((ConnectionPool)pools.next()).getLogin()).usePlatform(getDatasourceLogin().getDatasourcePlatform()); } ((DatasourceLogin)getReadConnectionPool().getLogin()).usePlatform(getDatasourceLogin().getDatasourcePlatform()); } // Configure the read pool getReadConnectionPool().startUp(); setAccessor(allocateReadConnection()); releaseReadConnection(getAccessor()); for (Iterator poolsEnum = getConnectionPools().values().iterator(); poolsEnum.hasNext();) { ((ConnectionPool)poolsEnum.next()).startUp(); } } /** * INTERNAL: * Override to acquire the connection from the pool at the last minute */ public Object executeCall(Call call, AbstractRecord translationRow, DatabaseQuery query) throws DatabaseException { RuntimeException exception = null; Object object = null; boolean accessorAllocated = false; if (query.getAccessor() == null) { query.setAccessor(this.allocateReadConnection()); accessorAllocated = true; } try { object = query.getAccessor().executeCall(call, translationRow, this); } catch (RuntimeException caughtException) { exception = caughtException; } finally { if (call.isFinished()) { //don't release the cursoredStream connection until Stream is closed try { if (accessorAllocated) { releaseReadConnection(query.getAccessor()); query.setAccessor(null); } } catch (RuntimeException releaseException) { if (exception == null) { throw releaseException; } //else ignore } } if (exception != null) { throw exception; } } return object; } /** * PUBLIC: * Return the pool by name. */ public ConnectionPool getConnectionPool(String poolName) { return (ConnectionPool)getConnectionPools().get(poolName); } /** * INTERNAL: * Connection are pooled to share and restrict the number of database connections. */ public Map getConnectionPools() { return connectionPools; } /** * PUBLIC: * The default connection policy is used by default by the acquireClientConnection() protocol. * By default it is a connection pool with min 5 and max 10 lazy pooled connections. */ public ConnectionPolicy getDefaultConnectionPolicy() { if (defaultConnectionPolicy == null) { this.defaultConnectionPolicy = new ConnectionPolicy("default"); } return defaultConnectionPolicy; } /** * PUBLIC: * Return the default connection pool. */ public ConnectionPool getDefaultConnectionPool() { return getConnectionPool("default"); } /** * 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) { if (query.isObjectLevelModifyQuery()) { throw QueryException.invalidQueryOnServerSession(query); } return this; } /** * PUBLIC: * Return the number of non-pooled database connections allowed. * This can be enforced to make up for the resource limitation of most JDBC drivers and database clients. * By default this is 50. */ public int getMaxNumberOfNonPooledConnections() { return maxNumberOfNonPooledConnections; } /** * INTERNAL: * Return the current number of non-pooled connections in use. */ public int getNumberOfNonPooledConnectionsUsed() { return numberOfNonPooledConnectionsUsed; } /** * INTERNAL: * Return the login for the read connection. Used by the platform autodetect feature */ protected Login getReadLogin(){ return getReadConnectionPool().getLogin(); } /** * PUBLIC: * Return the read connection pool. * The read connection pool handles allocating connection for read queries. * By default a ReadConnnectionPool with a single connection. This is normally sufficient * as a JDBC connection can support concurrent reading. Multiple connections can also * be specified and may improve concurrency on some JDBC drivers/databases. * If external connection pooling is used, an external connection pool will be used by default. * If your JDBC driver does not support concurrency corrently a normal ConnectionPool can be used * to ensure exclusive access to the read connection, note that this will give less concurrency. */ public ConnectionPool getReadConnectionPool() { return readConnectionPool; } /** * PUBLIC: * Return if this session has been connected to the database. */ public boolean isConnected() { if (getReadConnectionPool() == null) { return false; } return getReadConnectionPool().isConnected(); } /** * INTERNAL: * Return if this session is a server session. */ public boolean isServerSession() { return true; } /** * PUBLIC: * Shutdown the server session, also shutdown all of the connection pools. */ public void logout() { super.logout(); getReadConnectionPool().shutDown(); for (Iterator poolsEnum = getConnectionPools().values().iterator(); poolsEnum.hasNext();) { ((ConnectionPool)poolsEnum.next()).shutDown(); } } /** * INTERNAL: * Release the clients connection resource. */ public void releaseClientSession(ClientSession clientSession) throws DatabaseException { if (clientSession.getConnectionPolicy().isPooled()) { ConnectionPool pool = (ConnectionPool)getConnectionPools().get(clientSession.getConnectionPolicy().getPoolName()); getEventManager().preReleaseConnection(clientSession.getWriteConnection()); pool.releaseConnection(clientSession.getWriteConnection()); clientSession.setWriteConnection(null); } else { synchronized (this) { clientSession.disconnect(); clientSession.setWriteConnection(null); setNumberOfNonPooledConnectionsUsed(getNumberOfNonPooledConnectionsUsed() - 1); notify(); } } } /** * INTERNAL: * Release the read connection back into the read pool. */ public void releaseReadConnection(Accessor connection) { getEventManager().preReleaseConnection(connection); getReadConnectionPool().releaseConnection(connection); } /** * INTERNAL: * Connection are pooled to share and restrict the number of database connections. */ public void setConnectionPools(Map connectionPools) { this.connectionPools = connectionPools; } /** * PUBLIC: * The default connection policy is used by default by the acquireClientConnection() protocol. * By default it is a connection pool with min 5 and max 10 lazy pooled connections. */ public void setDefaultConnectionPolicy(ConnectionPolicy defaultConnectionPolicy) { this.defaultConnectionPolicy = defaultConnectionPolicy; } /** * PUBLIC: * Creates and adds "default" connection pool using default parameter values */ public void setDefaultConnectionPool() { addConnectionPool("default", getDatasourceLogin(), 5, 10); } /** * PUBLIC: * Set the number of non-pooled database connections allowed. * This can be enforced to make up for the resource limitation of most JDBC drivers and database clients. * By default this is 50. */ public void setMaxNumberOfNonPooledConnections(int maxNumberOfNonPooledConnections) { this.maxNumberOfNonPooledConnections = maxNumberOfNonPooledConnections; } /** * Set the current number of connections being used that are not from a connection pool. * @param int */ public void setNumberOfNonPooledConnectionsUsed(int numberOfNonPooledConnectionsUsed) { this.numberOfNonPooledConnectionsUsed = numberOfNonPooledConnectionsUsed; } /** * PUBLIC: * Set the read connection pool. * The read connection pool handles allocating connection for read queries. * By default a ReadConnnectionPool with a single connection. This is normally sufficient * as a JDBC connection can support concurrent reading. Multiple connections can also * be specified and may improve concurrency on some JDBC drivers/databases. * If external connection pooling is used, an external connection pool will be used by default. * If your JDBC driver does not support concurrency corrently a normal ConnectionPool can be used * to ensure exclusive access to the read connection, note that this will give less concurrency. */ public void setReadConnectionPool(ConnectionPool readConnectionPool) { if (isConnected()) { throw ValidationException.cannotSetReadPoolSizeAfterLogin(); } this.readConnectionPool = readConnectionPool; this.readConnectionPool.setOwner(this); } /** * PUBLIC: * Creates and sets the new read connection pool. */ public void setReadConnectionPool(Login readLogin) throws ValidationException { if (isConnected()) { throw ValidationException.poolsMustBeConfiguredBeforeLogin(); } ConnectionPool pool = null; if (readLogin.shouldUseExternalConnectionPooling()) { pool = new ExternalConnectionPool("read", readLogin, this); } else { pool = new ConnectionPool("read", readLogin, 2, 2, this); } this.readConnectionPool = pool; } /** * INTERNAL: * Updates standard connection pools. Should not be called after session is connected. * This is needed in case of pools' logins been altered after the pool has been created * (SessionManager does that) * All pools should be re-created in case their type doesn't match their login. * In addition, sequenceConnectionPool should be removed in case its login * has shouldUseExternaltransactionController()==true (see setSequenceConnectionPool) */ protected void updateStandardConnectionPools() { if (getDefaultConnectionPool() != null) { if (getDefaultConnectionPool().isThereConflictBetweenLoginAndType()) { setDefaultConnectionPool(); } } if (getReadConnectionPool() != null) { if (getReadConnectionPool().isThereConflictBetweenLoginAndType()) { setReadConnectionPool(getReadConnectionPool().getLogin()); } } } /** * PUBLIC: * Configure the read connection pool. * The read connection pool handles allocating connection for read queries. * By default a ReadConnnectionPool with a single connection. This is normally sufficient * as a JDBC connection can support concurrent reading. Multiple connections can also * be specified and may improve concurrency on some JDBC drivers/databases. * If external connection pooling is used, an external connection pool will be used by default. * If your JDBC driver does not support concurrency corrently a normal ConnectionPool can be used * to ensure exclusive access to the read connection, note that this will give less concurrency. */ public void useExclusiveReadConnectionPool(int minNumerOfConnections, int maxNumerOfConnections) { setReadConnectionPool(new ConnectionPool("read", getDatasourceLogin(), minNumerOfConnections, maxNumerOfConnections, this)); } /** * PUBLIC: * Configure the read connection pool. * The read connection pool handles allocating connection for read queries. * By default a ReadConnnectionPool with a single connection. This is normally sufficient * as a JDBC connection can support concurrent reading. Multiple connections can also * be specified and may improve concurrency on some JDBC drivers/databases. * If external connection pooling is used, an external connection pool will be used by default. * If your JDBC driver does not support concurrency corrently a normal ConnectionPool can be used * to ensure exclusive access to the read connection, note that this will give less concurrency. */ public void useExternalReadConnectionPool() { setReadConnectionPool(new ExternalConnectionPool("read", getDatasourceLogin(), this)); } /** * PUBLIC: * Configure the read connection pool. * The read connection pool handles allocating connection for read queries. * By default a ReadConnnectionPool with a single connection. This is normally sufficient * as a JDBC connection can support concurrent reading. Multiple connections can also * be specified and may improve concurrency on some JDBC drivers/databases. * If external connection pooling is used, an external connection pool will be used by default. * If your JDBC driver does not support concurrency corrently a normal ConnectionPool can be used * to ensure exclusive access to the read connection, note that this will give less concurrency. */ public void useReadConnectionPool(int minNumerOfConnections, int maxNumerOfConnections) { setReadConnectionPool(new ReadConnectionPool("read", getDatasourceLogin(), minNumerOfConnections, maxNumerOfConnections, this)); } /** * INTERNAL: * Return SequencingServer object owned by the session. */ public SequencingServer getSequencingServer() { return getSequencingHome().getSequencingServer(); } }





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