readme
PL/Java, 1.2.x
Java™ is a registered trademark of Sun Microsystems, Inc. in the United States and other countries.
A source tarball and four of binary builds can be found in the download area. Two for Windows and two for i386 based Linux. Although all pre-compiled binaries must run using a standard JVM, the PL/Java can also be compiled and linked using GNU GCJ. PL/Java has no pre-compiled binaries for GCJ but the make system contain what’s needed to make the build easy.
Please note that all use of GCJ should be regarded as experimental. Due to limitations in the implementation of java.security in some versions of GCJ the PL/Java trusted language implementation is, in fact, not trusted. At present this applies regardless of what GCJ version since the code is conditionally compiled.
Prerequisites
- PostgreSQL >= 8.0.3
- PostgreSQL JDBC drivers (needed by the client Deployer program).
- A Java runtime >= Java 1.4 or GCJ >= 4.0.x (Linux only).
Get the binary distribution of PL/Java for your platform. Unzip it into a directory of your own choice.
Postmaster configuration
Get the PostgreSQL environment up and running. You will need to modify the
postgresql.conf
file. In order to find the PL/Java shared object, you can do one of two things. Either
you install the shared object in a directory already searched by the postmaster
(such as the data directory) or you tell the postmaster where to find it using the
dynamic_library_path
. I.e. you have a setting similar to this:
dynamic_library_path = '$libdir:<pljava installation>'
Note that on the win32 platform you need to use a semicolon as a path separator and double backslashes (since backslash is the escape character in the postgresql.conf file) as directory separators.
In order to see the logging from the tests add the following:
log_min_messages
=info
Add the following entry:
custom_variable_classes = 'pljava'
System classpath
Normally, all Java code is loaded into the database using the install_jar/replace_jar SQL functions. Most of PL/Java (those functions included) is however implemented in Java. Unless you use GCJ, where this Java code is compiled and linked with the pljava shared object module, this hen and egg problem needs to be resolved using the system classpath. Add the following entry to the
postgresql.conf
file:
pljava.classpath = <pljava installation>/pljava.jar
Shared object issues
Unless you use GCJ, the postmaster must be made aware of the location of the shared objects used by the Java Runtime Environment (JRE). Please note that this applies to the postmaster, i.e. the backend process, and not to the client. The client will not need these settings.
Linux/Unix
Setting the LD_LIBRARY_PATH
environment will work on most Linux/Unix platforms:
export LD_LIBRARY_PATH=$JAVA_HOME/jre/lib/i386:$JAVA_HOME/jre/lib/i386/client
.
Apparently, on some Linux platforms you will also need to include $JAVA_HOME/jre/lib/i386/native_threads.
An alternative to use LD_LIBRARY_PATH
is to edit the /etc/ld.so.conf
file and then use /sbin/ldconfig on some Linux/Unix systems.
zlib conflict
On some platforms there will be a conflict between the libzip.so included in the JRE and the libz.so used by PostgreSQL (the JRE libzip.so includes a libz.so). The symptom is an InternalError in the java.util.zip.Inflater.init when an attempt is made to load the first class. You can verify the version of libzip.so using the following command:
strings libzip.so | fgrep Copyright
The problem can be resolved in one of the following ways depending on your needs and ability to recompile:
- Check if you can use a newer version of your JRE where the versions match. If so, that’s probably the best solution.
- Set the environment LD_PRELOAD in effect for the postmaster process to point to the libzip.so present in the JRE. That will force the JRE version to be used. This might break postgres own use of compression for the affected processes.
- Reconfigure PostgreSQL with
–without-zlib
, recompile and reinstall. This will effetively disable all compression support in PostgreSQL. - Obtain a zlib version from somewhere that corresponds to the version used by the JRE and relink your PostgreSQL executables with that version.
Windows
A standard install on a Windows box would be to add the following
entries to you PATH
environment:
set PATH=%PATH%;%JAVA_HOME%\jre\bin;%JAVA_HOME%\jre\bin\client
You are now ready to start the postmaster.
Deploying the PL/Java
PL/Java adds a schema named SQLJ to the database (the naming is from the proposed
SQL standard for Java backend mapping) and adds a couple of tables and functions
to that schema. The deployment can be done in one of two ways. The simplest way
is probably to just execute the file install.sql
as a super user (the
uninstall.sql
will remove the PL/Java installation). PL/Java also comes with
deploy program that lets you install, reinstall, or uninstall PL/Java. This
program will assert that you indeed are a super user and then execute the
correct commands using jdbc. In
order to run this program, you must see to that the PostgreSQL jdbc driver package
postgresql.jar
and the deploy.jar
file is in your
CLASSPATH
, then run:
java org.postgresql.pljava.deploy.DeployerThis will result in a list of options. Typically you would use something like:
java org.postgresql.pljava.deploy.Deployer -install
That’s all there’s to it. You are now ready to start using the PL/Java system.
Run the example tests
The tests are divided into two jar files. One is the client part found in the test.jar
. It contains some methods that executes
SQL statements and prints the output (all contained there can of course also be
executed from psql or any other client). The other is the examples.jar
which contains the sample code that runs in the backend. The latter must be installed
in the database in order to function. An easy way to do this is to use psql and
issue the command:
SELECT sqlj.install_jar('file:///some/directory/examples.jar', 'samples', true);
Please note that the deployment descriptor stored in examples.jar will attempt
to create the schema javatest
so the user that executes the sqlj.install_jar
must have permission to do that. If this command succeeds, everything is working correctly. You may get a couple
of errors here though.
- A complaint that the class
org.postgresql.pljava.
<something> cannot be found.
The probable cause of this is that theCLASSPATH
seen by the postmaster is incorrect so that the pljava.jar is not found. - A complaint that the libpljava.so or pljava.dll cannot be found. Probable
cause is that the
dynamic_library_path
in thepostgresql.conf
file is incorrect.
Once loaded, you must also set the classpath used by the PL/Java runtime. This
classpath is set per schema (namespace). A schema that lacks a classpath will default
to the classpath that has been set for the public schema. The tests will use the
schema javatest
. To define the classpath for this schema, simply use
psql and issue the command:
SELECT sqlj.set_classpath('javatest', 'samples');
The first argument is the name of the schema, the second is a colon separated list of jar names. The names must reflect jars that are installed in the system.
NOTE: If you don’t use schemas, you must still issue the set_classpath command to assign a correct classpath to the ‘public’ schema. This can only be done by a super user.
Now, you should be able to run the tests:
java org.postgresql.pljava.test.Tester
Building
Building should be very stright forward:
- No PosgreSQL source is needed. Your path must be set to find the pg_config binary. The ‘pgxs’ concept in PostgreSQL will take care of the rest.
- If you are using GCJ, you must supply USE_GCJ=1 to the make command.
- If you are using a normal Java VM, be sure to set the JAVA_HOME environment variable.