Oracle® Database SQLJ Developer's Guide 11g Release 2 (11.2) E10590-02 |
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This chapter guides you through the basics of testing your Oracle SQLJ installation and configuration and running a simple application.
This chapter discusses the following topics:
This section discusses basic assumptions about your environment and requirements of your system so that you can run SQLJ, covering the following topics:
The following assumptions are made about the system on which you will be running the Oracle SQLJ implementation:
You have a standard Java environment that is operational on your system. This would typically be using a Sun Microsystems Java Development Kit (JDK), but other implementations of Java will work. Ensure that you can run Java (typically java
) and the Java compiler (typically javac
).
To translate and run SQLJ applications on a Sun JDK, you must use JDK 1.5.x or JDK 1.6.x. You must use the JDBC driver of the same version as that of SQLJ, can be thin or OCI8 driver
See Also:
"SQLJ Environment"Note:
A Java run-time environment (JRE), such as the one installed with Oracle Database 11g, is not by itself sufficient for translating SQLJ programs. However, a JRE is sufficient for running SQLJ programs that have already been translated and compiled.You can already run JDBC applications in your environment.
See also:
Oracle Database JDBC Developer's Guide and Reference for more information about JDBC driversThe following are required to use the Oracle SQLJ implementation:
A database system that is accessible using your JDBC driver
Class files for the SQLJ translator
Translator-related classes are available in the following file:
ORACLE_HOME
/sqlj/lib/translator.jar
Class files for the SQLJ run time.
ORACLE_HOME
/sqlj/lib/runtime12.jar
Note:
runtime12ee.jar
has been deprecated since Oracle Database 11g Release 1 (11.1). Use runtime12.jar
instead.To ensure that you have a fully working environment, you must consider several aspects of your environment: SQLJ and its code generation mode, JDBC, and the JDK.
Note:
Code generation is determined by the SQLJ-codegen
option. Refer to "Code Generation (-codegen)" for more information.The following is a typical environment setup for Oracle-specific code generation:
SQLJ code generation: -codegen=oracle
(default)
SQLJ translation library: translator.jar
SQLJ run-time library: runtime12.jar
JDBC drivers: Oracle 11g release 2 (11.2)
JDK version: 1.5.x or 1.6.x
Note:
If you are running against different JDBC versions, then translate against the earlier version.You can run the application against a JDK version that is at least as high as the version you translated the code under.
You must keep in mind the following points regarding backward compatibility of the Oracle SQLJ implementation:
Code generated with an earlier release of the SQLJ translator can continue to run and compile against current run-time libraries. However, this is subject to the cross-compatibility limitations discussed in "Environment Considerations".
Oracle-specific translator output, that is, code generated with the default -codegen=oracle
setting, must be created and executed using the runtime12.jar
library. In addition:
Such code will be executable under future Oracle JDBC and SQLJ implementations.
Such code, however, will not be executable under earlier releases of Oracle JDBC drivers and Oracle SQLJ run time. In these circumstances, you will have to retranslate the code.
After you have verified that the preceding assumptions and requirements are satisfied, you must check your SQLJ installation. You must:
Following are the release-specific notes regarding availability of SQLJ and its demo applications:
SQLJ and its demo applications are available from the Oracle Technology Network (OTN) at the following location:
http://www.oracle.com/technetwork/database/focus-areas/application-development/index-099369.html
For Oracle Database 11g, SQLJ and its demo applications are included with the installation.
Verify that the following directories have been installed and are populated:
Refer to the Oracle Database JDBC Developer's Guide and Reference for information about JDBC files that should be installed on your system.
Installing the Oracle Database 11g Java environment includes, among other things, installing a sqlj
directory under your ORACLE_HOME
directory. The sqlj
directory contains the following subdirectories:
demo
(demo applications, including some referenced in this chapter)
lib
(.jar
files containing class files for SQLJ)
Check whether all these directories have been created and populated, especially lib
.
The ORACLE_HOME
/bin
directory contains utilities for all Java product areas, including the SQLJ and JPublisher executable files.
Ensure that the PATH
and CLASSPATH
environment variables have the necessary settings for the Oracle SQLJ implementation. Set the PATH
and CLASSPATH
environment variables as follows for the Oracle SQLJ implementation:
Setting PATH
To run the sqlj
script, which invokes the SQLJ translator, without having to fully specify its path, verify that the PATH
environment variable has been updated to include the following:
ORACLE_HOME/bin
Use backslash (\) for Microsoft Windows. Replace ORACLE_HOME
with your actual Oracle home directory.
Setting CLASSPATH
Update the CLASSPATH
environment variable to include the current directory as well as the following:
ORACLE_HOME/sqlj/lib/translator.jar
Use backslash (\) for Microsoft Windows. Replace ORACLE_HOME
with your actual Oracle home directory.
Include the following run-time library in the CLASSPATH
:
ORACLE_HOME/sqlj/lib/runtime12.jar
In addition, you must include one of the following JDBC JARs in the CLASSPATH
:
ORACLE_HOME/jdbc/lib/ojdbc5*.jar ORACLE_HOME/jdbc/lib/ojdbc6*.jar
Note:
To translate or run SQLJ programs in JDK 1.5.x environment, you should haveojdbc5.jar
in the classpath and to translate or run SQLJ programs in JDK 1.6.x environment, you should have ojdbc6.jar
in the classpath. Ensure that the correct JDBC JAR is picked up at runtime for connecting to Oracle Database.Note:
You will not be able to run the SQLJ translator if you do not add a run-time library. You must specify a run-time library as well as the translator library in theCLASSPATH
.
To see if SQLJ is installed correctly, and to see the version information for SQLJ, JDBC, and Java, run the following command:
% sqlj -version-long
The sqljutl
package is required for online checking of stored procedures and functions in Oracle Database instance. Beginning with Oracle8i Database release 8.1.5, it is installed automatically under the SYS
schema during installation of the server-side Java virtual machine (JVM) for a Java-enabled database. If your database is not Java-enabled, then you will have to manually install this package.
If you want to verify the installation of sqljutl
, then issue the following SQL command from SQL*Plus:
describe sys.sqljutl
This should result in a brief description of the package.
If you get a message indicating that the package cannot be found, or if you want to install an updated version of the package, then you can install it by using SQL*Plus to run the sqljutl.sql
script (or sqljutl8.sql
for Oracle8i Database), which is located at:
ORACLE_HOME/sqlj/lib/sqljutl.sql
You can test your database, JDBC, and SQLJ setup using demo applications defined in the following source files:
TestInstallCreateTable.java
TestInstallJDBC.java
TestInstallSQLJ.sqlj
TestInstallSQLJChecker.sqlj
There is also a Java properties file, connect.properties
, that helps you set up your database connection. You must edit this file to set appropriate user, password, and URL values.
The demo applications discussed here are provided with your SQLJ installation in the demo
directory:
ORACLE_HOME/sqlj/demo
You may have to edit some of the source files and translate and compile them, as appropriate. The demo applications provided with the Oracle SQLJ implementation refer to tables on Oracle Database account with user name scott
and password tiger
. Most Oracle Database installations have this account. You can substitute other values for scott
and tiger
if desired.
Note:
Running the demo applications requires that thedemo
directory be the current directory, and that the current directory (".
") should be specified in the CLASSPATH
.This section covers the following topics:
This section describes how to update the connect.properties
file to configure your Oracle connection for run time. The file is in the demo
directory and looks something like the following:
Note:
In the Oracle Database 11g JDBC implementation, database URL connection strings using SIDs are deprecated. Following is an example, whereorcl
is the SID:
jdbc:oracle:thin:@localhost:1521:orcl
This would now generate a warning, but not a fatal error. Instead, you are encouraged to use database service names, such as myservice
in the following example:
jdbc:oracle:thin:@localhost:1521/myservice
Refer to the Oracle Database JDBC Developer's Guide and Reference for information about database service names.
# Users should uncomment one of the following URLs or add their own. # (If using Thin, edit as appropriate.) #sqlj.url=jdbc:oracle:thin:@localhost:1521/myservice #sqlj.url=jdbc:oracle:oci:@ # # User name and password here sqlj.user=scott sqlj.password=tiger
Connecting with an Oracle JDBC Driver
Use oci
in the connection string for Oracle JDBC OCI driver in any new code. For backward compatibility, however, oci8
is still accepted. Therefore, you do not have to change existing code.
If you are using the JDBC Thin driver, then uncomment the thin
URL line in connect.properties
and edit it as appropriate for your Oracle connection. Use the same URL that was specified when your JDBC driver was set up.
The following tests assume a table called SALES
. Compile and run TestInstallCreateTable
as follows:
% javac TestInstallCreateTable.java % java TestInstallCreateTable
This will create the table for you if the database and the JDBC driver are working and the connection is set up properly in the connect.properties
file.
Note:
If you already have a table calledSALES
in your schema and do not want it altered, edit TestInstallCreateTable.java
to change the table name. Otherwise, your original table will be dropped and replaced.If you do not want to use TestInstallCreateTable
, then you can create the SALES
table using the following SQL statement:
CREATE TABLE SALES ( ITEM_NUMBER NUMBER, ITEM_NAME CHAR(30), SALES_DATE DATE, COST NUMBER, SALES_REP_NUMBER NUMBER, SALES_REP_NAME CHAR(20));
If you want to further test Oracle JDBC driver, then use the TestInstallJDBC
demo. Verify that your connection is set up properly in connect.properties
. Then, compile and run TestInstallJDBC
, as follows:
% javac TestInstallJDBC.java % java TestInstallJDBC
The program should print:
Hello, JDBC!
Now translate and run the TestInstallSQLJ
demo, a SQLJ application that has functionality similar to that of TestInstallJDBC
. Use the following command to translate the source:
% sqlj TestInstallSQLJ.sqlj
Note that this command also compiles the application.
On a UNIX environment, the sqlj
script is in ORACLE_HOME
/bin
, which should already be in the PATH
. On Windows, use the sqlj.exe
executable in the bin
directory. The SQLJ translator.jar
file has the class files for the SQLJ translator and run time. It is located in ORACLE_HOME
/sqlj/lib
and should already be in the CLASSPATH
.
See Also:
"Set the Path and Classpath"Now run the application as follows:
% java TestInstallSQLJ
The program should print:
Hello, SQLJ!
If the SQLJ translator is able to connect to a database, then it can provide online semantics-checking of your SQL operations during translation. The SQLJ translator is written in Java and uses JDBC to get information it needs from a database connection that you specify. You provide the connection parameters for online semantics-checking using the sqlj
script command line or using a SQLJ properties file, which is sqlj.properties
by default.
While still in the demo
directory, edit the sqlj.properties
file and update, comment, or uncomment the sqlj.password
, sqlj.url
, and sqlj.driver
lines, as appropriate, to reflect your database connection information. For assistance, refer to the comments in the sqlj.properties
file.
Following is an example of what the appropriate driver, URL, and password settings might be if you are using Oracle JDBC OCI driver.
sqlj.url=jdbc:oracle:oci:@ sqlj.driver=oracle.jdbc.OracleDriver sqlj.password=tiger
Online semantics-checking is enabled as soon as you specify a user name for the translation-time connection. You can specify the user name either by uncommenting the sqlj.user
line in the sqlj.properties
file or by using the -user
command-line option. The user
, password
, url
, and driver
options all can be set either on the command line or in the properties file.
See Also:
"Connection Options"You can test online semantics-checking by translating the TestInstallSQLJChecker.sqlj
file located in the demo
directory, as follows (or using another user name, if appropriate):
% sqlj -user=scott TestInstallSQLJChecker.sqlj
This should produce the following error message if you are using one of Oracle JDBC drivers:
TestInstallSQLJChecker.sqlj:41: Warning: Unable to check SQL query. Error returned by database is: ORA-00904: invalid column name
Edit TestInstallSQLJChecker.sqlj
to fix the error on line 41. The column name should be ITEM_NAME
instead of ITEM_NAMAE
. Once you make this change, you can translate and run the application without error using the following commands:
% sqlj -user=scott TestInstallSQLJChecker.sqlj % java TestInstallSQLJChecker
If everything works, then the following line is displayed:
Hello, SQLJ Checker!