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title=Administering Database Connectivity
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~~~~~~
= Administering Database Connectivity
[[GSADG00015]][[ablih]]
[[administering-database-connectivity]]
== 11 Administering Database Connectivity
This chapter provides procedures for performing database connectivity
tasks in the {productName} 7 environment by
using the `asadmin` command-line utility.
The following topics are addressed here:
* link:#gipbp[About Database Connectivity]
* link:#ggkon[Setting Up the Database]
* link:#ggndx[Configuring Access to the Database]
* link:#beamw[Configuration Specifics for JDBC Drivers]
Instructions for accomplishing these tasks by using the Administration
Console are contained in the Administration Console online help.
[[gipbp]][[GSADG00576]][[about-database-connectivity]]
=== About Database Connectivity
A database management system (DBMS) provides facilities for storing,
organizing, and retrieving data. The information in databases is often
described as persistent data because it is saved on disk and exists
after the application process ends. Most business applications store
data in relational databases. Applications can access database
information by using the Java Database Connectivity (JDBC) API.
The key elements of database connectivity are the following:
* Database. The repository where data is stored for an enterprise. Java
EE applications access relational databases through the JDBC API. For
administration procedures, see link:#ggkon[Setting Up the Database].
* JDBC Connection Pool. A JDBC connection pool is a group of reusable
connections for a particular database. For administration procedures,
see link:#gharo[Administering JDBC Connection Pools].
* JDBC Resource. A JDBC resource (data source) provides applications
with a means of connecting to a database. To create a JDBC resource,
specify the connection pool with which it is associated. Multiple JDBC
resources can specify a single connection pool. A JDBC resource is
identified by its Java Naming and Directory Interface (JNDI) name. For
administration procedures, see link:#ggndp[Administering JDBC
Resources].
* JDBC Driver. A database driver is a software component that enables a
Java application to interact with a database connectivity API . Each
database requires its own driver. For administration procedures, see
link:#ghatb[Integrating the JDBC Driver].
At runtime, the following sequence occurs when an application connects
to a database:
1. The application gets the JDBC resource associated with the database
by making a call through the JNDI API.
+
Using the JNDI name of the resource, the naming and directory service
locates the JDBC resource. Each JDBC resource specifies a connection
pool.
2. Using the JDBC resource, the application gets a database connection.
+
{productName} retrieves a physical connection from the connection
pool that corresponds to the database. The pool defines connection
attributes such as the database name (URL), user name, and password.
3. After the database connection is established, the application can
read, modify, and add data to the database.
+
The application accesses the database by making calls to the JDBC API.
The JDBC driver translates the application's JDBC calls into the
protocol of the database server.
4. When the application is finished accessing the database, the
application closes the connection and returns the connection to the
connection pool.
[[ggkon]][[GSADG00577]][[setting-up-the-database]]
=== Setting Up the Database
Most applications use relational databases to store, organize, and
retrieve data. Applications access relational databases through the Java
Database Connectivity (JDBC) API.
The following topics are addressed here:
* link:#gharl[To Install the Database and Database Driver]
* link:#ggndz[To Start the Database]
* link:#ggnbw[To Stop the Database]
* link:#ghmbq[Apache Derby Database Utility Scripts]
[[gharl]][[GSADG00416]][[to-install-the-database-and-database-driver]]
==== To Install the Database and Database Driver
1. Install a supported database product.
+
To see the current list of database products supported by {productName}, refer to the link:release-notes.html#GSRLN[{productName} Release Notes].
2. Install a supported JDBC driver for the database product.
+
For a list of drivers supported by {productName}, see
link:#beamw[Configuration Specifics for JDBC Drivers].
3. Make the JDBC driver JAR file accessible to the domain
administration server (DAS).
+
See link:#ghatb[Integrating the JDBC Driver].
4. Create the database.
+
The application provider usually delivers scripts for creating and
populating the database.
[[GSADG949]]
Next Steps
You are now ready to create a connection pool for the database, and a
JDBC resource that points to the connection pool. See link:#ggnfv[To
Create a JDBC Connection Pool] and link:#ggnda[To Create a JDBC
Resource]. The final step is to integrate the JDBC driver into an
administrative domain as described in link:#ghatb[Integrating the JDBC
Driver].
[[ggndz]][[GSADG00417]][[to-start-the-database]]
==== To Start the Database
{productName} includes an implementation of the Apache Derby
database, however, you can use any JDBC-compliant database. The database
is not started automatically when you start {productName}, so if you
have applications that require a database, you need to start Apache
Derby database manually by using the local `start-database` subcommand.
Start the database by using the link:reference-manual/start-database.html#GSRFM00234[`start-database`]
subcommand.
When the database server starts, or a client connects to it
successfully, the following files are created at the location that is
specified by the `--dbhome` option:
* The `derby.log` file contains the database server process log along
with its standard output and standard error information.
* The database files contain your schema (for example, database tables).
[[GSADG00212]][[ggooc]]
Example 11-1 Starting a Database
This example starts the Apache Derby database on the host host1 and port
5001. [source]
----
asadmin> start-database --dbhost host1 --dbport 5001 --terse=true
Starting database in the background.
Log redirected to /opt/SUNWappserver/databases/javadb.log.
Command start-database executed successfully.
----
[[GSADG950]]
See Also
You can also view the full syntax and options of the subcommand by
typing `asadmin help start-database` at the command line.
[[ggnbw]][[GSADG00418]][[to-stop-the-database]]
==== To Stop the Database
Use the local `stop-database` subcommand to stop the Apache Derby
database on a specified port. A single host can have multiple database
server processes running on different ports.
1. If necessary, notify users that the database is being stopped.
2. Stop the database by using the link:reference-manual/stop-database.html#GSRFM00239[`stop-database`]
subcommand.
[[GSADG00213]][[ggorc]]
Example 11-2 Stopping a Database
This example stops the Apache Derby database on port 5001 of
`localhost`.
[source]
----
asadmin> stop-database --dbhost=localhost --dbport=5001
onnection obtained for host: localhost, port number 5001.
Apache Derby Network Server - 10.2.2.1 - (538595) shutdown
at 2008-10-17 23:34:2 7.218 GMT
Command stop-database executed successfully.
----
[[GSADG951]]
Troubleshooting
For a laptop that roams between networks, you might have trouble
shutting down the database. If you start the Apache Derby database and
then change your IP address, you will not be able to stop the Apache
Derby database unless you add a specific `--dbhost` argument. For
example, if you run `asadmin start-database` `dbhost` `= 0.0.0.0`, and
then disconnect Ethernet and switch to wifi, you should run a command
similar to the following to stop the database:
`asadmin stop-database` `dbhost` `localhost`
[[GSADG952]]
See Also
You can also view the full syntax and options of the subcommand by
typing `asadmin help stop-database` at the command line.
[[ghmbq]][[GSADG00744]][[apache-derby-database-utility-scripts]]
==== Apache Derby Database Utility Scripts
The Apache Derby database configuration that is available for use with
{productName} includes scripts that can help you use the Apache Derby
database. The following scripts are available in the
as-install``/javadb/bin`` directory:
`startNetworkServer,startNetworkServer.bat`::
Script to start the network server
`stopNetworkServer,stopNetworkServer.bat`::
Script to stop the network server
`ij,ij.bat`::
Interactive JDBC scripting tool
`dblook,dblook.bat`::
Script to view all or part of the DDL for a database
`sysinfo, sysinfo.bat`::
Script to display versioning information about the Apache Derby
database environment
`NetworkServerControl,NetworkServerControl.bat`::
Script to execute commands on the `NetworkServerControl` API
[[ghmbj]][[GSADG00419]][[to-configure-your-environment-to-run-the-apache-derby-database-utility-scripts]]
===== To Configure Your Environment to Run the Apache Derby Database Utility Scripts
1. Ensure that the `JAVA_HOME` environment variable specifies the
directory where the JDK is installed.
2. Set the `JAVADB_HOME` environment variable to point to the
as-install``/javadb`` directory.
[[GSADG953]]
See Also
For more information about these utilities, see the following
documentation:
* http://db.apache.org/derby/docs/10.13/tools/[Apache Derby Tools and
Utilities Guide]
* http://db.apache.org/derby/docs/10.13/adminguide/[Derby Server and
Administration Guide]
[[ggndx]][[GSADG00578]][[configuring-access-to-the-database]]
=== Configuring Access to the Database
After establishing the database, you are ready to set up access for
{productName} applications. The high-level steps include creating a
JDBC connection pool, creating a JDBC resource for the connection pool,
and integrating a JDBC driver into an administrative domain.
Instructions for performing these steps are contained in the following
sections:
* link:#gharo[Administering JDBC Connection Pools]
* link:#ggndp[Administering JDBC Resources]
* link:#gkudf[Enabling the `jdbc/__default` Resource in a Clustered
Environment]
* link:#ghatb[Integrating the JDBC Driver]
[[gharo]][[GSADG00745]][[administering-jdbc-connection-pools]]
==== Administering JDBC Connection Pools
A JDBC connection pool is a group of reusable connections for a
particular database. Because creating each new physical connection is
time consuming, {productName} maintains a pool of available
connections. When an application requests a connection, it obtains one
from the pool. When an application closes a connection, the connection
is returned to the pool. JDBC connection pools can be globally
accessible or be scoped to an enterprise application, web module, EJB
module, connector module or application client module, as described in
"link:application-deployment-guide/deploying-applications.html#GSDPG00075[Application-Scoped Resources]" in {productName} Application Deployment Guide.
A JDBC resource is created by specifying the connection pool with which
the resource is associated. Multiple JDBC resources can specify a single
connection pool. The properties of connection pools can vary with
different database vendors. Some common properties are the database name
(URL), the user name, and the password.
The following tasks and information are used to administer JDBC
connection pools:
* link:#ggnfv[To Create a JDBC Connection Pool]
* link:#ggnby[To List JDBC Connection Pools]
* link:#ggnwn[To Contact (Ping) a Connection Pool]
* link:#gjiqp[To Reset (Flush) a Connection Pool]
* link:#giosk[To Update a JDBC Connection Pool]
* link:#ggngb[To Delete a JDBC Connection Pool]
* link:#gktdi[Configuring Specific JDBC Connection Pool Features]
[[ggnfv]][[GSADG00420]][[to-create-a-jdbc-connection-pool]]
===== To Create a JDBC Connection Pool
Use the `create-jdbc-connection-pool` subcommand in remote mode to
register a new JDBC connection pool with the specified JDBC connection
pool name. A JDBC connection pool or a connector connection pool can be
created with authentication. You can either use a subcommand option to
specify user, password, or other connection information using the
`asadmin` utility, or specify the connection information in the XML
descriptor file.
One connection pool is needed for each database, possibly more depending
on the application. When you are building the connection pool, certain
data specific to the JDBC driver and the database vendor is required.
You can find some of the following specifics in
link:#beamw[Configuration Specifics for JDBC Drivers]:
* Database vendor name
* Resource type, such as `javax.sql.DataSource` (local transactions
only) `javax.sql.XADataSource` (global transactions)
* Data source class name
* Required properties, such as the database name (URL), user name, and
password
Creating a JDBC connection pool is a dynamic event and does not require
server restart. However, there are some parameters that do require
server restart. See link:overview.html#ghciy[Configuration Changes That
Require Restart].
[[GSADG954]]
Before You Begin
Before creating the connection pool, you must first install and
integrate the database and its associated JDBC driver. For instructions,
see link:#ggkon[Setting Up the Database].
1. Ensure that the server is running. Remote subcommands require a running server.
2. Create the JDBC connection pool by using the
link:reference-manual/create-jdbc-connection-pool.html#GSRFM00036[`create-jdbc-connection-pool`] subcommand.
3. If needed, restart the server.
+
Some parameters require server restart. See
link:overview.html#ghciy[Configuration Changes That Require Restart].
[[GSADG00214]][[ggrgh]]
Example 11-3 Creating a JDBC Connection Pool
This example creates a JDBC connection pool named `sample_derby_pool` on
`localhost`.
[source]
----
asadmin> create-jdbc-connection-pool
--datasourceclassname org.apache.derby.jdbc.ClientDataSource
--restype javax.sql.XADataSource
--property portNumber=1527:password=APP:user=APP:serverName=
localhost:databaseName=sun-appserv-samples:connectionAttribut
es=\;create\\=true sample_derby_pool
Command create-jdbc-connection-pool executed successfully.
----
[[GSADG955]]
See Also
You can also view the full syntax and options of the subcommand by
typing `asadmin help create-jdbc-connection-pool` at the command line.
[[ggnby]][[GSADG00421]][[to-list-jdbc-connection-pools]]
===== To List JDBC Connection Pools
Use the `list-jdbc-connection-pools` subcommand in remote mode to list
all existing JDBC connection pools.
1. Ensure that the server is running. Remote subcommands require a running server.
2. List the JDBC connection pools by using the
link:reference-manual/list-jdbc-connection-pools.html#GSRFM00173[`list-jdbc-connection-pools`] subcommand.
[[GSADG00215]][[ggpcf]]
Example 11-4 Listing JDBC Connection Pools
This example lists the JDBC connection pools that are on `localhost`.
[source]
----
asadmin> list-jdbc-connection-pools
sample_derby_pool2
poolA
__TimerPool
DerbyPool
sample_derby_pool
Command list-jdbc-connection-pools executed successfully.
----
[[GSADG956]]
See Also
You can also view the full syntax and options of the subcommand by
typing `asadmin help list-jdbc-connection-pools` at the command line.
[[ggnwn]][[GSADG00422]][[to-contact-ping-a-connection-pool]]
===== To Contact (Ping) a Connection Pool
Use the `ping-connection-pool` subcommand in remote mode to test if a
connection pool is usable. For example, if you create a new JDBC
connection pool for an application that is expected to be deployed
later, you can test the JDBC pool with this subcommand before the
application is deployed. Running a ping will force the creation of the
pool if it hasn't already been created.
[[GSADG957]]
Before You Begin
Before you can contact a connection pool, the connection pool must be
created with authentication, and the server or database must be running.
1. Ensure that the server is running. Remote subcommands require a running server.
2. Ping a connection pool by using the
link:reference-manual/ping-connection-pool.html#GSRFM00214[`ping-connection-pool`] subcommand.
[[GSADG00216]][[ggpcs]]
Example 11-5 Contacting a Connection Pool
This example tests to see if the `DerbyPool` connection pool is usable.
[source]
----
asadmin> ping-connection-pool DerbyPool
Command ping-connection-pool executed successfully
----
[[GSADG958]]
See Also
You can also view the full syntax and options of the subcommand by
typing `asadmin help ping-connection-pool` at the command line.
You can also specify that a JDBC connection pool is automatically tested
when created or reconfigured by setting its `--ping` option to `true`
(the default is `false`). See link:#ggnfv[To Create a JDBC Connection
Pool] or link:#giosk[To Update a JDBC Connection Pool].
[[gjiqp]][[GSADG00423]][[to-reset-flush-a-connection-pool]]
===== To Reset (Flush) a Connection Pool
Use the `flush-connection-pool` in remote mode to reinitialize all
connections established in the specified connection pool without the
need for reconfiguring the pool. Connection pool reconfiguration can
result in application redeployment, which is a time-consuming operation.
The JDBC connection pool or connector connection pool is reset to its
initial state. Any existing live connections are destroyed, which means
that the transactions associated with these connections are lost and
must be retried. The subcommand then recreates the initial connections
for the pool, and restores the pool to its steady pool size.
1. Ensure that the server is running. Remote subcommands require a running server.
2. Reset a connection pool by using
theolink:GSRFM00135[`flush-connection-pool`] subcommand.
[[GSADG00217]][[gjirk]]
Example 11-6 Resetting (Flushing) a Connection Pool
This example resets the JDBC connection pool named `__TimerPool` to its
steady pool size.
[source]
----
asadmin> flush-connection-pool __TimerPool
Command flush-connection-pool executed successfully.
----
[[GSADG959]]
See Also
You can also view the full syntax and options of the subcommand by
typing `asadmin help flush-connection-pool` at the command line.
[[giosk]][[GSADG00424]][[to-update-a-jdbc-connection-pool]]
===== To Update a JDBC Connection Pool
You can change all of the settings for an existing pool except its name.
Use the `get` and `set` subcommands to view and change the values of the
JDBC connection pool properties.
1. List the JDBC connection pools by using the
link:reference-manual/list-jdbc-connection-pools.html#GSRFM00173[`list-jdbc-connection-pools`] subcommand.
2. View the attributes of the JDBC connection pool by using the get
subcommand.
+
For example:
+
[source]
----
asadmin get resources.jdbc-connection-pool.DerbyPool.property
----
3. Set the attribute of the JDBC connection pool by using the set
subcommand.
+
For example:
+
[source]
----
asadmin set resources.jdbc-connection-pool.DerbyPool.steady-pool-size=9
----
4. If needed, restart the server.
+
Some parameters require server restart. See
link:overview.html#ghciy[Configuration Changes That Require Restart].
[[GSADG960]]
See Also
For information about how to tune a connection pool, see the
link:performance-tuning-guide.html#GSPTG[{productName} Performance Tuning
Guide].
[[ggngb]][[GSADG00425]][[to-delete-a-jdbc-connection-pool]]
===== To Delete a JDBC Connection Pool
Use the `delete-jdbc-connection-pool` subcommand in remote mode to
delete an existing JDBC connection pool. Deleting a JDBC connection pool
is a dynamic event and does not require server restart.
[[GSADG961]]
Before You Begin
Before deleting a JDBC connection pool, all associations to the resource
must be removed.
1. Ensure that the server is running. Remote subcommands require a running server.
2. List the JDBC connection pools by using the
link:reference-manual/list-jdbc-connection-pools.html#GSRFM00173[`list-jdbc-connection-pools`] subcommand.
3. If necessary, notify users that the JDBC connection pool is being
deleted.
4. Delete the connection pool by using the
link:reference-manual/delete-jdbc-connection-pool.html#GSRFM00088[`delete-jdbc-connection-pool`] subcommand.
[[GSADG00218]][[ggpis]]
Example 11-7 Deleting a JDBC Connection Pool
This example deletes the JDBC connection pool named `DerbyPool`.
[source]
----
asadmin> delete-jdbc-connection-pool jdbc/DerbyPool
Command delete-jdbc-connection-pool executed successfully.
----
[[GSADG962]]
See Also
You can also view the full syntax and options of the subcommand by
typing `asadmin help delete-jdbc-connection-pool` at the command line.
[[gktdi]][[GSADG00670]][[configuring-specific-jdbc-connection-pool-features]]
===== Configuring Specific JDBC Connection Pool Features
In {productName}, JDBC Connection Pools support a variety of features
to simplify administration, monitoring and performance tuning. The
following topics address several of these features:
* link:#gktcv[Transparent Pool Reconfiguration]
* link:#gkter[Using an Initialization Statement]
* link:#gktcc[Setting a Statement Timeout]
* link:#gktec[Statement Leak Detection and Leaked Statement Reclamation]
* link:#gktej[Statement Caching]
* link:#gktbu[Statement Tracing]
[[gktcv]][[GSADG00085]][[transparent-pool-reconfiguration]]
Transparent Pool Reconfiguration
When the properties or attributes of a JDBC connection pool are changed,
the connection pool is destroyed and re-created. Normally, applications
using the connection pool must be redeployed as a consequence. This
restriction can be avoided by enabling transparent JDBC connection pool
reconfiguration. When this feature is enabled, applications do not need
to be redeployed. Instead, requests for new connections are blocked
until the reconfiguration operation completes. Connection requests from
any in-flight transactions are served using the old pool configuration
so as to complete the transaction. Then, connections are created using
the pool's new configuration, and any blocked connection requests are
served with connections from the re-created pool.
To enable transparent JDBC connection pool reconfiguration, set the
`dynamic-reconfiguration-wait-timeout-in-seconds` property of the JDBC
connection pool to a positive, nonzero value in one of the following
ways:
* Add it as a property in the Edit JDBC Connection Pool Properties page
in the Administration Console. For more information, click the Help
button in the Administration Console.
* Specify it using the `--property` option in the
`create-jdbc-connection-pool` subcommand. For more information, see
link:reference-manual/create-jdbc-connection-pool.html#GSRFM00036[`create-jdbc-connection-pool`(1)].
* Set it using the `set` subcommand. For example:
+
[source]
----
asadmin set resources.jdbc-connection-pool.pool-name.property.dynamic-reconfiguration-wait-timeout-in-seconds=15
----
This property specifies the time in seconds to wait for in-use
connections to close and in-flight transactions to complete. Any
connections in use or transaction in flight past this time must be
retried.
[[gkter]][[GSADG00086]][[using-an-initialization-statement]]
Using an Initialization Statement
You can specify a statement that executes each time a physical
connection to the database is created (not reused) from a JDBC
connection pool. This is useful for setting request or session specific
properties and is suited for homogeneous requests in a single
application. Set the Init SQL attribute of the JDBC connection pool to
the SQL string to be executed in one of the following ways:
* Enter an Init SQL value in the Edit Connection Pool Advanced
Attributes page in the Administration Console. For more information,
click the Help button in the Administration Console.
* Specify the `--initsql` option in the
`asadmin create-jdbc-connection-pool` command. For more information, see
link:reference-manual/create-jdbc-connection-pool.html#GSRFM00036[`create-jdbc-connection-pool`(1)].
* Specify the `init-sql` option in the `asadmin set` command. For
example:
+
[source]
----
asadmin set domain1.resources.jdbc-connection-pool.DerbyPool.init-sql="sql-string"
----
[[gktcc]][[GSADG00087]][[setting-a-statement-timeout]]
Setting a Statement Timeout
An abnormally long running JDBC query executed by an application may
leave it in a hanging state unless a timeout is explicitly set on the
statement. Setting a statement timeout guarantees that all queries
automatically time out if not completed within the specified period.
When statements are created, the `queryTimeout` is set according to the
statement timeout setting. This works only when the underlying JDBC
driver supports `queryTimeout` for `Statement`, `PreparedStatement`,
`CallableStatement`, and `ResultSet`.
You can specify a statement timeout in the following ways:
* Enter a Statement Timeout value in the Edit Connection Pool Advanced
Attributes page in the Administration Console. For more information,
click the Help button in the Administration Console.
* Specify the `--statementtimeout` option in the
`asadmin create-jdbc-connection-pool` command. For more information, see
link:reference-manual/create-jdbc-connection-pool.html#GSRFM00036[`create-jdbc-connection-pool`(1)].
[[gktec]][[GSADG00088]][[statement-leak-detection-and-leaked-statement-reclamation]]
Statement Leak Detection and Leaked Statement Reclamation
If statements are not closed by an application after use, it is possible
for the application to run out of cursors. Enabling statement leak
detection causes statements to be considered as leaked if they are not
closed within a specified period. Additionally, leaked statements can
reclaimed automatically.
To enable statement leak detection, set Statement Leak Timeout In
Seconds for the JDBC connection pool to a positive, nonzero value in one
of the following ways:
* Specify the `--statementleaktimeout` option in the
`create-jdbc-connection-pool` subcommand. For more information, see
link:reference-manual/create-jdbc-connection-pool.html#GSRFM00036[`create-jdbc-connection-pool`(1)].
* Specify the `statement-leak-timeout-in-seconds` option in the `set`
subcommand. For example:
+
[source]
----
asadmin set resources.jdbc-connection-pool.pool-name.statement-leak-timeout-in-seconds=300
----
When selecting a value for Statement Leak Timeout In Seconds, make sure
that:
* It is less than the Connection Leak Timeout; otherwise, the connection
could be closed before the statement leak is recognized.
* It is greater than the Statement Timeout; otherwise, a long running
query could be mistaken as a statement leak.
After enabling statement leak detection, enable leaked statement
reclamation by setting Reclaim Leaked Statements for the JDBC connection
pool to a `true` value in one of the following ways:
* Specify the `--statementleakreclaim=true` option in the
`create-jdbc-connection-pool` subcommand. For more information, see
link:reference-manual/create-jdbc-connection-pool.html#GSRFM00036[`create-jdbc-connection-pool`(1)].
* Specify the `statement-leak-reclaim` option in the `set` subcommand.
For example:
+
[source]
----
asadmin set resources.jdbc-connection-pool.pool-name.statement-leak-reclaim=true
----
[[gktej]][[GSADG00089]][[statement-caching]]
Statement Caching
Statement caching stores statements, prepared statements, and callable
statements that are executed repeatedly by applications in a cache,
thereby improving performance. Instead of the statement being prepared
each time, the cache is searched for a match. The overhead of parsing
and creating new statements each time is eliminated.
Statement caching is usually a feature of the JDBC driver. The {productName} provides caching for drivers that do not support caching. To
enable this feature, set the Statement Cache Size for the JDBC
connection pool in one of the following ways:
* Enter a Statement Cache Size value in the Edit Connection Pool
Advanced Attributes page in the Administration Console. For more
information, click the Help button in the Administration Console.
* Specify the `--statementcachesize` option in the
`asadmin create-jdbc-connection-pool` command. For more information, see
link:reference-manual/create-jdbc-connection-pool.html#GSRFM00036[`create-jdbc-connection-pool`(1)].
* Specify the `statement-cache-size` option in the `asadmin set`
command. For example:
+
[source]
----
asadmin set domain1.resources.jdbc-connection-pool.DerbyPool.statement-cache-size=10
----
By default, this attribute is set to zero and the statement caching is
turned off. To enable statement caching, you can set any positive
nonzero value. The built-in cache eviction strategy is LRU-based (Least
Recently Used). When a connection pool is flushed, the connections in
the statement cache are recreated.
[[gktbu]][[GSADG00090]][[statement-tracing]]
Statement Tracing
You can trace the SQL statements executed by applications that use a
JDBC connection pool. Set the SQL Trace Listeners attribute to a
comma-separated list of trace listener implementation classes in one of
the following ways:
* Enter an SQL Trace Listeners value in the Edit Connection Pool
Advanced Attributes page in the Administration Console. For more
information, click the Help button in the Administration Console.
* Specify the `--sqltracelisteners` option in the
`asadmin create-jdbc-connection-pool` command. For more information, see
link:reference-manual/create-jdbc-connection-pool.html#GSRFM00036[`create-jdbc-connection-pool`(1)].
* Specify the `sql-trace-listeners` option in the `asadmin set` command.
For example:
+
[source]
----
asadmin set domain1.resources.jdbc-connection-pool.DerbyPool.sql-trace-listeners=listeners
----
The {productName} provides a public interface,
org.glassfish.api.jdbc.SQLTraceListener , that implements a means of
recording `SQLTraceRecord` objects. To make custom implementations of
this interface available to the {productName}, place the
implementation classes in as-install``/lib``.
The {productName} provides an SQL tracing logger to log the SQL
operations in the form of `SQLTraceRecord` objects in the `server.log`
file. The module name under which the SQL operation is logged is
`jakarta.enterprise.resource.sqltrace`. SQL traces are logged as FINE
messages along with the module name to enable easy filtering of the SQL
logs. A sample SQL trace record looks like this:
[source]
----
[#|2009-11-27T15:46:52.202+0530|FINE|glassfish7.0|jakarta.enterprise.resource.sqltrace.com.sun.gjc.util
|_ThreadID=29;_ThreadName=Thread-1;ClassName=com.sun.gjc.util.SQLTraceLogger;MethodName=sqlTrace;
|ThreadID=77 | ThreadName=p: thread-pool-1; w: 6 | TimeStamp=1259317012202
| ClassName=com.sun.gjc.spi.jdbc40.PreparedStatementWrapper40 | MethodName=executeUpdate
| arg[0]=insert into table1(colName) values(100) | arg[1]=columnNames | |#]
----
This trace shows that an `executeUpdate(String sql, String columnNames)`
operation is being done.
When SQL statement tracing is enabled and JDBC connection pool
monitoring is enabled, {productName} maintains a tracing cache of
recent queries and their frequency of use. The following JDBC connection
pool properties can be configured to control this cache and the
monitoring statistics available from it:
`time-to-keep-queries-in-minutes`::
Specifies how long in minutes to keep a query in the tracing cache,
tracking its frequency of use. The default value is 5 minutes.
`number-of-top-queries-to-report`::
Specifies how many of the most used queries, in frequency order, are
listed the monitoring report. The default value is 10 queries.
Set these parameters in one of the following ways:
* Add them as properties in the Edit JDBC Connection Pool Properties
page in the Administration Console. For more information, click the Help
button in the Administration Console.
* Specify them using the `--property` option in the
`create-jdbc-connection-pool` subcommand. For more information, see
link:reference-manual/create-jdbc-connection-pool.html#GSRFM00036[`create-jdbc-connection-pool`(1)].
* Set them using the `set` subcommand. For example:
+
[source]
----
asadmin set resources.jdbc-connection-pool.pool-name.property.time-to-keep-queries-in-minutes=10
----
[[ggndp]][[GSADG00746]][[administering-jdbc-resources]]
==== Administering JDBC Resources
A JDBC resource, also known as a data source, provides an application
with a means of connecting to a database. Typically, you create a JDBC
resource for each database that is accessed by the applications deployed
in a domain. Multiple JDBC resources can be specified for a database.
JDBC resources can be globally accessible or be scoped to an enterprise
application, web module, EJB module, connector module or application
client module, as described in "link:application-deployment-guide/deploying-applications.html#GSDPG00075[Application-Scoped
Resources]" in {productName} Application
Deployment Guide.
A JDBC resource is created by specifying the connection pool with which
the resource will be associated . Use a unique Java Naming and Directory
Interface (JNDI) name to identify the resource. For example, the JNDI
name for the resource of a payroll database might be
`java:comp/env/jdbc/payrolldb`.
The Jakarta EE standard specifies that certain default resources be made
available to applications, and defines specific JNDI names for these
default resources. {productName} makes these names available through
the use of logical JNDI names, which map Jakarta EE standard JNDI names to
specific {productName} resources. For JDBC resources, the Jakarta EE
standard name `java:comp/DefaultDataSource` is mapped to the
`jdbc/__default` resource.
The following tasks and information are used to administer JDBC
resources:
* link:#ggnda[To Create a JDBC Resource]
* link:#ggnhl[To List JDBC Resources]
* link:#giwjv[To Update a JDBC Resource]
* link:#ggnhz[To Delete a JDBC Resource]
[[ggnda]][[GSADG00426]][[to-create-a-jdbc-resource]]
===== To Create a JDBC Resource
Use the `create-jdbc-resource` subcommand in remote mode to create a
JDBC resource. Creating a JDBC resource is a dynamic event and does not
require server restart.
Because all JNDI names are in the `java:comp/env` subcontext, when
specifying the JNDI name of a JDBC resource in the Administration
Console, use only the `jdbc/`name format. For example, a payroll
database might be specified as `jdbc/payrolldb`.
[[GSADG963]]
Before You Begin
Before creating a JDBC resource, you must first create a JDBC connection
pool. For instructions, see link:#ggnfv[To Create a JDBC Connection
Pool].
1. Ensure that the server is running. Remote subcommands require a running server.
2. Create a JDBC resource by using the
link:reference-manual/create-jdbc-resource.html#GSRFM00037[`create-jdbc-resource`] subcommand.
+
Information about properties for the subcommand is included in this help
page.
3. If necessary, notify users that the new resource has been created.
[[GSADG00219]][[ggplj]]
Example 11-8 Creating a JDBC Resource
This example creates a JDBC resource named `DerbyPool`.
[source]
----
asadmin> create-jdbc-resource --connectionpoolid DerbyPool jdbc/DerbyPool
Command create-jdbc-resource executed successfully.
----
[[GSADG964]]
See Also
You can also view the full syntax and options of the subcommand by
typing `asadmin help create-jdbc-resource` at the command line.
[[ggnhl]][[GSADG00427]][[to-list-jdbc-resources]]
===== To List JDBC Resources
Use the `list-jdbc-resources` subcommand in remote mode to list the
existing JDBC resources.
1. Ensure that the server is running. Remote subcommands require a running server.
2. List JDBC resources by using the
link:reference-manual/list-jdbc-resources.html#GSRFM00174[`list-jdbc-resources`] subcommand.
[[GSADG00220]][[ggpgi]]
Example 11-9 Listing JDBC Resources
This example lists JDBC resources for `localhost`.
[source]
----
asadmin> list-jdbc-resources
jdbc/__TimerPool
jdbc/DerbyPool
jdbc/__default
jdbc1
Command list-jdbc-resources executed successfully.
----
[[GSADG965]]
See Also
You can also view the full syntax and options of the subcommand by
typing `asadmin help list-jdbc-resources` at the command line.
[[giwjv]][[GSADG00428]][[to-update-a-jdbc-resource]]
===== To Update a JDBC Resource
You can enable or disable a JDBC resource by using the `set` subcommand.
The JDBC resource is identified by its dotted name.
1. List JDBC resources by using the
link:reference-manual/list-jdbc-resources.html#GSRFM00174[`list-jdbc-resources`] subcommand.
2. Modify the values for the specified JDBC resource by using the
link:reference-manual/set.html#GSRFM00226[`set`] subcommand.
+
For example:
[[GSADG00221]][[gjkrz]]
Example 11-10 Updating a JDBC Resource
This example changes the `res1` enabled setting to false.
[source]
----
asadmin>set resources.jdbc-resource.res1.enabled=false
----
[[ggnhz]][[GSADG00429]][[to-delete-a-jdbc-resource]]
===== To Delete a JDBC Resource
Use the `delete-jdbc-resource` subcommand in remote mode to delete an
existing JDBC resource. Deleting a JDBC resource is a dynamic event and
does not require server restart.
[[GSADG966]]
Before You Begin
Before deleting a JDBC resource, all associations with this resource
must be removed.
1. Ensure that the server is running. Remote subcommands require a running server.
2. List JDBC resources by using the
link:reference-manual/list-jdbc-resources.html#GSRFM00174[`list-jdbc-resources`] subcommand.
3. If necessary, notify users that the JDBC resource is being deleted.
4. Delete a JDBC resource by using the
link:reference-manual/delete-jdbc-resource.html#GSRFM00089[`delete-jdbc-resource`] subcommand.
[[GSADG00222]][[ggpga]]
Example 11-11 Deleting a JDBC Resource
This example deletes a JDBC resource named `DerbyPool`.
[source]
----
asadmin> delete-jdbc-resource jdbc/DerbyPool
Command delete-jdbc-resource executed successfully.
----
[[GSADG967]]
See Also
You can also view the full syntax and options of the subcommand by
typing `asadmin help delete-jdbc-resource` at the command line.
[[gkudf]][[GSADG00747]][[enabling-the-jdbc__default-resource-in-a-clustered-environment]]
==== Enabling the `jdbc/__default` Resource in a Clustered Environment
{productName} 7 includes a preconfigured JDBC resource with the
JNDI name `jdbc/__default`. This `jdbc/__default` resource is not
enabled by default, so you need to explicitly enable it if you want to
use it in a cluster.
[[gkubj]][[GSADG00430]][[to-enable-the-jdbc__default-resource-for-a-clustered-environment]]
===== To Enable the `jdbc/__default` Resource for a Clustered Environment
Instructions for creating JDBC resources in general are provided in
link:#ggnda[To Create a JDBC Resource]. Use the following procedure to
enable the preconfigured `jdbc/__default` resource for a clustered
{productName} environment.
1. Create the `jdbc/__default` resource reference for the cluster.
+
[source]
----
asadmin create-resource-ref --target cluster-name jdbc/__default
----
2. Enable the resource on the DAS that manages the cluster.
+
[source]
----
asadmin set resources.jdbc-connection-pool.DerbyPool.property.serverName=DAS-machine-name
----
This step is only required if the cluster includes remote instances.
3. Restart the DAS and the target cluster(s).
+
[source]
----
asadmin stop-cluster cluster-name
asadmin stop-domain domain-name
asadmin start-domain domain-name
asadmin start-cluster cluster-name
----
[[ghatb]][[GSADG00748]][[integrating-the-jdbc-driver]]
==== Integrating the JDBC Driver
To use JDBC features, you must choose a JDBC driver to work with the
{productName}, then you must set up the driver. This section covers
these topics:
* link:#gkpdj[Supported Database Drivers]
* link:#gkpci[Making the JDBC Driver JAR Files Accessible]
* link:#gkpfj[Automatic Detection of Installed Drivers]
[[gkpdj]][[GSADG00671]][[supported-database-drivers]]
===== Supported Database Drivers
Supported JDBC drivers are those that have been fully tested by Oracle.
For a list of the JDBC drivers currently supported by the {productName}, see the link:release-notes.html#GSRLN[{productName} Release
Notes]. For configurations of supported and other drivers, see
link:#beamw[Configuration Specifics for JDBC Drivers].
[NOTE]
====
Because the drivers and databases supported by the {productName} are
constantly being updated, and because database vendors continue to
upgrade their products, always check with Oracle technical support for
the latest database support information.
====
[[gkpci]][[GSADG00672]][[making-the-jdbc-driver-jar-files-accessible]]
===== Making the JDBC Driver JAR Files Accessible
To integrate the JDBC driver into a {productName} domain, copy the
JAR files into the domain-dir``/lib`` directory, then restart the server.
This makes classes accessible to all applications or modules deployed on
servers that share the same configuration. For more information about
{productName} class loaders, see "link:application-development-guide/class-loaders.html#GSDVG00003[Class Loaders]" in
{productName} Application Development Guide.
If you are using an Oracle database with EclipseLink extensions, copy
the JAR files into the domain-dir``/lib/ext`` directory, then restart the
server. For details, see "link:application-development-guide/jpa.html#GSDVG00390[Oracle Database
Enhancements]" in {productName} Application
Development Guide.
[[gkpfj]][[GSADG00673]][[automatic-detection-of-installed-drivers]]
===== Automatic Detection of Installed Drivers
The Administration Console detects installed JDBC Drivers automatically
when you create a JDBC connection pool. To create a JDBC connection pool
using the Administration Console, open the Resources component, open the
JDBC component, select Connection Pools, and click on the New button.
This displays the New JDBC Connection Pool page.
Based on the Resource Type and Database Vendor you select on the New
JDBC Connection Pool page, data source or driver implementation class
names are listed in the Datasource Classname or Driver Classname field
when you click on the Next button. When you choose a specific
implementation class name on the next page, additional properties
relevant to the installed JDBC driver are displayed in the Additional
Properties section.
[[beamw]][[GSADG00579]][[configuration-specifics-for-jdbc-drivers]]
=== Configuration Specifics for JDBC Drivers
{productName} is designed to support connectivity to any database
management system by using a corresponding JDBC driver. Configuration
information is provided for these JDBC drivers:
* link:#beanc[IBM DB2 Database Type 2 Driver]
* link:#glhim[IBM DB2 Database Type 4 Driver]
* link:#beamx[Apache Derby DB/Derby Type 4 Driver]
* link:#gbsor[MySQL Server Database Type 4 Driver]
* link:#beani[Oracle 10 Database Driver]
* link:#beanh[Oracle 11 Database Driver]
* link:#gjksj[PostgreSQL Type 4 Driver]
* link:#beamy[DataDirect Type 4 Driver for IBM DB2 Database]
* link:#beanj[DataDirect Type 4 Driver for IBM Informix]
* link:#beana[DataDirect Type 4 Driver for Microsoft SQL Server
Database]
* link:#gjksd[DataDirect Type 4 Driver for MySQL Server Database]
* link:#beamz[DataDirect Type 4 Driver for Oracle 11 Database]
* link:#beanb[DataDirect Type 4 Driver for Sybase Database]
* link:#beane[Inet Oraxo Driver for Oracle Database]
* link:#beanf[Inet Merlia Driver for Microsoft SQL Server Database]
* link:#beang[Inet Sybelux Driver for Sybase Database]
* link:#beand[JConnect Type 4 Driver for Sybase ASE 12.5 Database]
[[beanc]][[GSADG00749]][[ibm-db2-database-type-2-driver]]
==== IBM DB2 Database Type 2 Driver
The JAR files for the DB2 driver are `db2jcc.jar`,
`db2jcc_license_cu.jar`, and `db2java.zip`. Set your environment
variables . For example:
[source]
----
LD_LIBRARY_PATH=/usr/db2user/sqllib/lib:${Jakarta EE.home}/lib
DB2DIR=/opt/IBM/db2/V8.2
DB2INSTANCE=db2user
INSTHOME=/usr/db2user
VWSPATH=/usr/db2user/sqllib
THREADS_FLAG=native
----
Configure the connection pool using the following settings:
* Name: Use this name when you configure the JDBC resource later.
* Resource Type: Specify the appropriate value.
* Database Vendor: DB2
* DataSource Classname: `com.ibm.db2.jcc.DB2SimpleDataSource`
* Properties:
** `databaseName` - Set as appropriate.
** `user` - Set as appropriate.
** `password` - Set as appropriate.
** `driverType` - Set to `2`.
** `deferPrepares` - Set to `false`.
[[glhim]][[GSADG00750]][[ibm-db2-database-type-4-driver]]
==== IBM DB2 Database Type 4 Driver
The JAR file for the DB2 driver is `db2jcc.jar`. Configure the
connection pool using the following settings:
* Name: Use this name when you configure the JDBC resource later.
* Resource Type: Specify the appropriate value.
* Database Vendor: DB2
* DataSource Classname: `com.ibm.db2.jcc.DB2SimpleDataSource`
* Properties:
** `databaseName` - Set as appropriate.
** `user` - Set as appropriate.
** `password` - Set as appropriate.
** `driverType` - Set to `4`.
[[beamx]][[GSADG00751]][[apache-derby-dbderby-type-4-driver]]
==== Apache Derby DB/Derby Type 4 Driver
The Apache Derby DB/Derby JDBC driver is included with {productName}
by default, so you do not need to integrate this JDBC driver with
{productName}.
The JAR file for the Apache Derby DB driver is `derbyclient.jar`.
Configure the connection pool using the following settings:
* Name: Use this name when you configure the JDBC resource later.
* Resource Type: Specify the appropriate value.
* Database Vendor: Apache Derby
* DataSource Classname: Specify one of the following:
+
[source]
----
org.apache.derby.jdbc.ClientDataSource40
org.apache.derby.jdbc.ClientXADataSource40
----
* Properties:
** `serverName` - Specify the host name or IP address of the database
server.
** `portNumber` - Specify the port number of the database server if it
is different from the default.
** `databaseName` - Specify the name of the database.
** `user` - Specify the database user.
+
This is only necessary if the Apache Derby database is configured to use
authentication. The Apache Derby database does not use authentication by
default. When the user is provided, it is the name of the schema where
the tables reside.
** `password` - Specify the database password.
+
This is only necessary if the Apache Derby database is configured to use
authentication.
[[gbsor]][[GSADG00752]][[mysql-server-database-type-4-driver]]
==== MySQL Server Database Type 4 Driver
The JAR file for the MySQL driver is
`mysql-connector-java-5.1.14-bin.jar`. Configure the connection pool
using the following settings:
* Name: Use this name when you configure the JDBC resource later.
* Resource Type: Specify the appropriate value.
* Database Vendor: MySql
* DataSource Classname:
+
[source]
----
com.mysql.jdbc.jdbc2.optional.MysqlDataSource
com.mysql.jdbc.jdbc2.optional.MysqlXADataSource
----
* Properties:
** `serverName` - Specify the host name or IP address of the database
server.
** `portNumber` - Specify the port number of the database server.
** `databaseName` - Set as appropriate.
** `user` - Set as appropriate.
** `password` - Set as appropriate.
[[beani]][[GSADG00753]][[oracle-10-database-driver]]
==== Oracle 10 Database Driver
The JAR file for the Oracle 10 database driver is `ojdbc14.jar`. Make
sure that the shared library is available through `LD_LIBRARY_PATH` and
that the `ORACLE_HOME` property is set.
To make the Oracle driver behave in a Jakarta EE-compliant manner, you must
define the following JVM property:
[source]
----
-Doracle.jdbc.J2EE13Compliant=true
----
Configure the connection pool using the following settings:
* Name: Use this name when you configure the JDBC resource later.
* Resource Type: Specify the appropriate value.
* Database Vendor: Oracle
* DataSource Classname: Specify one of the following:
+
[source]
----
oracle.jdbc.pool.OracleDataSource
oracle.jdbc.xa.client.OracleXADataSource
----
* Properties:
** `user` - Set as appropriate.
** `password` - Set as appropriate.
[[beanh]][[GSADG00754]][[oracle-11-database-driver]]
==== Oracle 11 Database Driver
The JAR file for the Oracle 11 database driver is `ojdbc6.jar`.
To make the Oracle driver behave in a Jakarta EE-compliant manner, you must
define the following JVM property:
[source]
----
-Doracle.jdbc.J2EE13Compliant=true
----
Configure the connection pool using the following settings:
* Name: Use this name when you configure the JDBC resource later.
* Resource Type: Specify the appropriate value.
* Database Vendor: Oracle
* DataSource Classname: Specify one of the following:
+
[source]
----
oracle.jdbc.pool.OracleDataSource
oracle.jdbc.xa.client.OracleXADataSource
----
* Properties:
** `user` - Set as appropriate.
** `password` - Set as appropriate.
+
[NOTE]
====
For this driver, the `XAResource.recover` method repeatedly returns the
same set of in-doubt Xids regardless of the input flag. According to the
XA specifications, the Transaction Manager initially calls this method
with `TMSTARTSCAN` and then with `TMNOFLAGS` repeatedly until no Xids
are returned. The `XAResource.commit` method also has some issues.
To disable this {productName} workaround, the
`oracle-xa-recovery-workaround` property value must be set to `false`.
Additionally, in order for the transaction manager to recover
transactions, the JDBC connection pool's database user must be given
certain Oracle permissions:
** SELECT permission on DBA_PENDING_TRANSACTIONS, PENDING_TRANS$,
DBA_2PC_PENDING and DBA_2PC_NEIGHBORS.
** EXECUTE permissions on DBMS_XA and DBMS_SYSTEM.
====
[[gjksj]][[GSADG00755]][[postgresql-type-4-driver]]
==== PostgreSQL Type 4 Driver
The JAR file for the PostgreSQL driver is
`postgresql-9.0-801.jdbc4.jar`. Configure the connection pool using the
following settings:
* Name: Use this name when you configure the JDBC resource later.
* Resource Type: Specify the appropriate value.
* Database Vendor: Postgresql
* DataSource Classname: `org.postgresql.ds.PGSimpleDataSource`
* Properties:
** `serverName` - Specify the host name or IP address of the database
server.
** `portNumber` - Specify the port number of the database server.
** `databaseName` - Set as appropriate.
** `user` - Set as appropriate.
** `password` - Set as appropriate.
[[beamy]][[GSADG00756]][[datadirect-type-4-driver-for-ibm-db2-database]]
==== DataDirect Type 4 Driver for IBM DB2 Database
The JAR file for DataDirect driver is `db2.jar`. Configure the
connection pool using the following settings:
* Name: Use this name when you configure the JDBC resource later.
* Resource Type: Specify the appropriate value.
* Database Vendor: DataDirect-DB2
* DataSource Classname: `com.ddtek.jdbcx.db2.DB2DataSource`
* Properties:
** `serverName` - Specify the host name or IP address of the database
server.
** `portNumber` - Specify the port number of the database server.
** `databaseName` - Set as appropriate.
** `user` - Set as appropriate.
** `password` - Set as appropriate.
[[beanj]][[GSADG00757]][[datadirect-type-4-driver-for-ibm-informix]]
==== DataDirect Type 4 Driver for IBM Informix
Configure the connection pool using the following settings:
* Name: Use this name when you configure the JDBC resource later.
* Resource Type: Specify the appropriate value.
* Database Vendor: DataDirect-Informix
* DataSource Classname: Specify one of the following:
+
[source]
----
com.informix.jdbcx.IfxDataSource
com.informix.jdbcx.IfxXADataSource
----
DataDirect DataSource Classname:
`com.ddtek.jdbcx.informix.InformixDataSourcee`
* Properties:
** `serverName` - Specify the Informix database server name.
** `portNumber` - Specify the port number of the database server.
** `databaseName` - Set as appropriate. This is optional.
** `user` - Set as appropriate.
** `password` - Set as appropriate.
** `IfxIFXHost` - Specify the host name or IP address of the database
server.
[[beana]][[GSADG00758]][[datadirect-type-4-driver-for-microsoft-sql-server-database]]
==== DataDirect Type 4 Driver for Microsoft SQL Server Database
The JAR file for the DataDirect driver is `sqlserver.jar`. Configure the
connection pool using the following settings:
* Name: Use this name when you configure the JDBC resource later.
* Resource Type: Specify the appropriate value.
* Database Vendor: DataDirect-Microsoft SQL Server
* DataSource Classname: `com.ddtek.jdbcx.sqlserver.SQLServerDataSource`
* Properties:
** `serverName` - Specify the host name or IP address and the port of
the database server.
** `portNumber` - Specify the port number of the database server.
** `user` - Set as appropriate.
** `password` - Set as appropriate.
** `selectMethod` - Set to `cursor`.
[[gjksd]][[GSADG00759]][[datadirect-type-4-driver-for-mysql-server-database]]
==== DataDirect Type 4 Driver for MySQL Server Database
The JAR file for the DataDirect driver is `mysql.jar`. Configure the
connection pool using the following settings:
* Name: Use this name when you configure the JDBC resource later.
* Resource Type: Specify the appropriate value.
* Database Vendor: DataDirect-MySQL
* DataSource: `com.ddtek.jdbcx.mysql.MySQLDataSource`
* Properties:
** `serverName` - Specify the host name or IP address and the port of
the database server.
** `portNumber` - Specify the port number of the database server.
** `user` - Set as appropriate.
** `password` - Set as appropriate.
** `selectMethod` - Set to `cursor`.
[[beamz]][[GSADG00760]][[datadirect-type-4-driver-for-oracle-11-database]]
==== DataDirect Type 4 Driver for Oracle 11 Database
The JAR file for the DataDirect driver is `oracle.jar`.
To make the Oracle driver behave in a Jakarta EE-compliant manner, you must
define the following JVM property:
[source]
----
-Doracle.jdbc.J2EE13Compliant=true
----
Configure the connection pool using the following settings:
* Name: Use this name when you configure the JDBC resource later.
* Resource Type: Specify the appropriate value.
* Database Vendor: DataDirect-Oracle
* DataSource Classname: `com.ddtek.jdbcx.oracle.OracleDataSource`
* Properties:
** `serverName` - Specify the host name or IP address of the database
server.
** `portNumber` - Specify the port number of the database server.
** `user` - Set as appropriate.
** `password` - Set as appropriate.
[[beanb]][[GSADG00761]][[datadirect-type-4-driver-for-sybase-database]]
==== DataDirect Type 4 Driver for Sybase Database
The JAR file for the DataDirect driver is `sybase.jar`. Configure the
connection pool using the following settings:
* Name: Use this name when you configure the JDBC resource later.
* Resource Type: Specify the appropriate value.
* Database Vendor: DataDirect-Sybase
* DataSource Classname: `com.ddtek.jdbcx.sybase.SybaseDataSource`
* Properties:
** `serverName` - Specify the host name or IP address of the database
server.
** `portNumber` - Specify the port number of the database server.
** `databaseName` - Set as appropriate. This is optional.
** `user` - Set as appropriate.
** `password` - Set as appropriate.
[NOTE]
====
In some situations, using this driver can cause exceptions to be thrown
because the driver creates a stored procedure for every parameterized
PreparedStatement by default. If this situation arises, add the property
`PrepareMethod`, setting its value to `direct`.
====
[[beane]][[GSADG00762]][[inet-oraxo-driver-for-oracle-database]]
==== Inet Oraxo Driver for Oracle Database
The JAR file for the Inet Oracle driver is `Oranxo.jar`. Configure the
connection pool using the following settings:
* Name: Use this name when you configure the JDBC resource later.
* Resource Type: Specify the appropriate value.
* Database Vendor: Oracle
* DataSource Classname: `com.inet.ora.OraDataSource`
* Properties:
** `serverName` - Specify the host name or IP address of the database
server.
** `portNumber` - Specify the port number of the database server.
** `user` - Specify the database user.
** `password` - Specify the database password.
** `serviceName` - Specify the URL of the database. The syntax is as follows:
+
[source]
----
jdbc:inetora:server:port:dbname
----
For example:
+
[source]
----
jdbc:inetora:localhost:1521:payrolldb
----
In this example,`localhost` is the name of the host running the Oracle
server, `1521` is the Oracle server's port number, and `payrolldb` is
the SID of the database. For more information about the syntax of the
database URL, see the Oracle documentation.
** `streamstolob` - If the size of BLOB or CLOB data types exceeds 4 KB
and this driver is used for CMP, this property must be set to `true`.
[[beanf]][[GSADG00763]][[inet-merlia-driver-for-microsoft-sql-server-database]]
==== Inet Merlia Driver for Microsoft SQL Server Database
The JAR file for the Inet Microsoft SQL Server driver is `Merlia.jar`.
Configure the connection pool using the following settings:
* Name: Use this name when you configure the JDBC resource later.
* Resource Type: Specify the appropriate value.
* Database Vendor: MicrosoftSqlServer
* DataSource Classname: `com.inet.tds.TdsDataSource`
* Properties:
** `serverName` - Specify the host name or IP address and the port of
the database server.
** `portNumber` - Specify the port number of the database server.
** `user` - Set as appropriate.
** `password` - Set as appropriate.
[[beang]][[GSADG00764]][[inet-sybelux-driver-for-sybase-database]]
==== Inet Sybelux Driver for Sybase Database
The JAR file for the Inet Sybase driver is `Sybelux.jar`. Configure the
connection pool using the following settings:
* Name: Use this name when you configure the JDBC resource later.
* Resource Type: Specify the appropriate value.
* Database Vendor: Sybase
* DataSource Classname: `com.inet.syb.SybDataSource`
* Properties:
** `serverName` - Specify the host name or IP address of the database
server.
** `portNumber` - Specify the port number of the database server.
** `databaseName` - Set as appropriate. Do not specify the complete URL,
only the database name.
** `user` - Set as appropriate.
** `password` - Set as appropriate.
[[beand]][[GSADG00765]][[jconnect-type-4-driver-for-sybase-ase-12.5-database]]
==== JConnect Type 4 Driver for Sybase ASE 12.5 Database
The JAR file for the Sybase driver is `jconn4.jar`. Configure the
connection pool using the following settings:
* Name: Use this name when you configure the JDBC resource later.
* Resource Type: Specify the appropriate value.
* Database Vendor: Sybase
* DataSource Classname: Specify one of the following:
+
[source]
----
com.sybase.jdbc4.jdbc.SybDataSource
com.sybase.jdbc4.jdbc.SybXADataSource
----
* Properties:
** `serverName` - Specify the host name or IP address of the database
server.
** `portNumber` - Specify the port number of the database server.
** `databaseName` - Set as appropriate. Do not specify the complete URL,
only the database name.
** `user` - Set as appropriate.
** `password` - Set as appropriate.
** `BE_AS_JDBC_COMPLIANT_AS_POSSIBLE` - Set to `true`.
** `FAKE_METADATA` - Set to `true`.