Getting Started with Java DB
Version 10.5
Derby Document build:
May 8, 2009, 1:41:14 PM (EDT)




Version 10.5   Getting Started with Java DB
   
Contents
Copyright    
License    
Relationship between Java DB and Derby    
Introduction to Derby    
Deployment options    
System requirements    
Product documentation for Java DB    
Installing and configuring Derby    
Installing Java DB    
Setting up your environment    
Choosing a method to run the Derby tools and startup utilities    
Setting the environment variables    
Syntax for the derbyrun.jar file    
Manually setting the CLASSPATH environment variable    
Using the Derby tools and startup utilities    
Running sysinfo    
Running ij    
Running dblook    
Verifying the Derby system configuration    
Self-study tutorial for users new to Derby    
Tutorial overview    
Activity 1: Run SQL using the embedded driver    
Creating a directory and copying scripts into the directory    
Creating a Derby database and running SQL statements    
Activity 2: Run SQL using the client driver    
Activity 3: Run a JDBC program using the embedded driver    
The WwdEmbedded program    
Activity 4: Create and run a JDBC program using the client driver and Network Server    
What next with Derby?    
Quick start guide for experienced JDBC users    
Environments in which Derby can run    
Embedded environment    
Client/server environment    
Available drivers    
Database connection URL    
Documentation conventions    
Terminology    
SQL syntax    
Typographical conventions    
Derby libraries and scripts: complete reference    
Libraries provided by Derby    
Scripts included with Derby    
Trademarks    


Getting Started with Java DB
Apache Software FoundationGetting Started with Java DBApache Derby
Copyright
Copyright 2004-2009 The Apache Software Foundation
Copyright 2009 Sun Microsystems, Inc., 4150 Network Circle, Santa Clara, California 95054, U.S.A.
Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with the License. You may obtain a copy of the License at http://www.apache.org/licenses/LICENSE-2.0.
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License
The Apache License, Version 2.0
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Relationship between Java(TM) DB and Derby
Java(TM) DB is a relational database management system that is based on the Java programming language and SQL. Java DB is a commercial release of the Apache Software Foundation's (ASF) open source relational database project. The Apache project is called Derby.
The Java DB product includes Derby without any modification whatsoever to the underlying source code.
Technical support is available for purchase for the Java DB product through Sun.
Because Java DB and Derby have the same functionality, the Java DB documentation refers to the core functionality as Derby.
Java DB Version 10.5 is based on the Derby Version 10.5 release. References to "Derby" in the Java DB documentation refer to the Version 10.5 release of Apache Derby.
Introduction to Derby
Welcome to Derby! Derby is a full-featured, open source relational database management system (RDBMS) that is based on Java(TM) and SQL.
Derby is written and implemented completely in the Java programming language. Derby provides users with a small-footprint standards-based database engine that can be tightly embedded into any Java based solution. Derby ensures data integrity and provides sophisticated transaction support. In the default configuration there is no separate database server to be installed or maintained by the end user. For more information on Derby, visit the Derby Web site at http://db.apache.org/derby.
Before you install Derby, you should understand the deployment options and system requirements.
Deployment options
The Derby software distribution provides two basic deployment options (also referred to as frameworks), the simple embedded option and the Derby Network Server option.
Embedded
Refers to Derby being started by a simple single-user Java application. With this option Derby runs in the same Java virtual machine (JVM) as the application. Derby can be almost invisible to the end user because it is started and stopped by the application and often requires no administration.
The Derby documentation often refers to this as the embedded configuration or embedded mode.
Server (or Server-based)
Refers to Derby being started by an application that provides multi-user connectivity to Derby databases across a network. With this option Derby runs in the Java virtual machine (JVM) that hosts the Server. Applications connect to the Server from different JVMs to access the database. The Derby Network Server is part of the Derby software distribution and provides this type of framework for Derby. Derby also works well with other, independently developed Server applications.
The Derby documentation often refers to this as the Network Server configuration or client/server configuration.
System requirements
Derby is a database engine written completely in Java. The database will run in any certified Java Virtual Machine (JVM).
You must have a JAVA version 1.4 or higher installed on your computer. The Java Development Kit (JDK) is required to perform the activities in the Self-study tutorial for users new to Derby.
To check that the correct version of Java is installed, issue the java -version command.
Product documentation for Java DB
The Java DB product documentation consists of the Java DB manuals and the API reference.
Getting Started with Java DB
Describes how to install and configure Java DB. Includes a self-study tutorial for users new to Java DB and a quick-start guide for experienced JDBC users. This guide introduces the dblook, ij, and sysinfo tools, and the libraries and scripts that are included with Java DB.
Java DB Developer's Guide
Describes the functionality and features of Java DB common to all deployments, such as Java DB's JDBC and SQL specifics, deploying Java DB applications, working with properties, security, and other advanced features.
Java DB Reference Manual
Documents the implementation of the SQL language in Java DB. This guide provides reference information about the JDBC and JTA implementations, keywords, system tables, properties, and SQLExceptions in Java DB.
Tuning Java DB
This guide offers performance tips, an in-depth discussion of performance, and information about the Java DB optimizer.
Java DB Tools and Utilities Guide
Describes how to use the the Java DB tools such as dblook, ij, andsysinfo, and how to use the system procedures to import and export data, and how to store Java code in the database.
Java DB Server and Administration Guide
Part One of this guide discusses configuring servers, how to program client applications, and database administration. In addition, some systems might require administrative tasks such as backing up databases. These tasks are independent of any server framework but are unique to multi-user or large systems.
Part Two of this guide discusses administrative issues such as backups and debugging deadlocks.
Java DB API Reference
An API Reference that is automatically generated for all public Java DB classes. No reference is provided for the JDBC API, which is part of the Java 2 Platform, Standard Edition. For more information about the classes in the API, see the Java DB Reference Manual.
You can access the Java DB manuals and API Reference from the Java DB Documentation page on the Java DB web site. The product documentation is also installed with Java DB. The manuals are installed in the docs subdirectory and the API Reference is installed in the javadoc subdirectory.
Installing and configuring Derby
This section will help you install and configure Derby.
After you complete the installation:
 
Access the Self-study tutorial to get up and running with Derby. This tutorial demonstrates how to use Derby in the embedded and client/server configurations.
 
If you are an experienced JDBC programmer, you should also see the Quick start guide for experienced JDBC users.
Installing Java DB
To install Java DB you must first download a Java DB install file from the Java DB Web site.
Navigate your Web browser to http://developers.sun.com/javadb/downloads/. Click Get It. Follow the instructions on subsequent pages.
Extract the downloaded package, which contains the distribution of Java DB. This distribution contains scripts, libraries, and demonstration programs. The extracted installation contains several subdirectories:
 
The bin subdirectory contains the scripts for executing utilities and setting up the environment.
 
The demo subdirectory contains the demonstration programs.
 
The docs subdirectory contains the Java DB documentation.
 
The javadoc subdirectory contains the api documentation that was generated from source code comments.
 
The lib subdirectory contains the Java DB .jar files.
Setting up your environment
Derby includes several scripts that run the Derby tools and utilities. How you run those scripts depends on the configuration that you want to use to access the Derby database and tools.
To set up your environment:
Choosing a method to run the Derby tools and startup utilities
There are several ways that you can run the Derby tools and startup utilities.
The method that you choose to run the tools and utilities determines the environment variables that you set for Derby.
1.
 
Choose the method that you want to use:
Method
When to Use
Requirements
Run the tools using the command shell scripts that are provided with Derby.
Use this method when you want to run the tools with the least amount of typing and have installed the full bin distribution of Derby.
 
Set the DERBY_HOME environment variable
 
Include the java.exe file in the PATH environment variable
 
Include the DERBY_HOME\bin directory in the PATH environment variable
Run the tools using the derbyrun.jar archive file.
Use this method when:
 
You have only the Derby jar files available (see Libraries provided by Derby), and do not have the full bin distribution of Derby
 
You do not want to use the scripts that are provided with Derby
 
Set the DERBY_HOME environment variable
 
Include the java.exe file in the PATH environment variable
The derbyrun.jar file must be in the same folder as the other Derby .jar files.
For more information see the syntax for the derbyrun.jar file.
Run the tools using the complete java syntax or use Derby in a Java program.
Use this method when:
 
You do not have the derbyrun.jar file or the Derby scripts installed.
 
You want to learn the full syntax of each command and understand the details of setting up the execution environment.
 
You are developing application programs with Derby
 
Set the DERBY_HOME environment variable
 
Include the java.exefile in the PATH environment variable
 
You must know the full package name for the Java class that supports the tool
 
The CLASSPATH environment variable must be set to include the required JAR files.
For details on setting the CLASSPATH, see Manually setting the CLASSPATH environment variable.
2.
 
Based on the requirements of the method that you chose to run the tools, follow the instructions to set the environment variables.
Setting the environment variables
There are several environment variables that must be set depending on the method that you selected to run the Derby tools and startup utilities.
As mentioned in choosing a method to run the Derby tools and startup utilities, you must set the DERBY_HOME environment variable so that you can use the command examples that are presented in this manual. Adding the Derby scripts directory to your command execution PATH makes the scripts easier to use and enables you to use the script examples in this manual. The CLASSPATH environment variable must be set if you are using Derby in a Java program or executing the tools using the java command.
The steps below show you how to set the environment variables in a command window. The settings are only valid for that window. If you close the command window or open a new command window, you must set the environment variables again.
Tip: You can also set environment variables permanently. For example, on Windows you can use the Control Panel to permanently set the environment variables.
To set the environment variables:
1.
 
Set the DERBY_HOME environment variable to the location where you extracted the Derby bin distribution.
For example, if you installed Derby in the /opt/Derby_10 directory on UNIX or in the c:\Derby_10 directory on Windows, use the following command to set the DERBY_HOME environment variable:
Operating System
Command
UNIX
export DERBY_HOME=/opt/Derby_10
Windows
set DERBY_HOME=c:\Derby_10
2.
 
Be certain that the java.exe file, version 1.4.2 or, higher is in your command execution PATH. Open a command window and run the java -version command.
3.
 
Add the DERBY_HOME/bin directory to the PATH environment variable so that you can run the Derby scripts from any directory.
Operating System
Command
UNIX
export PATH="$DERBY_HOME/bin:$PATH"
Windows
set PATH=%DERBY_HOME%\bin;%PATH%. If you use the Control Panel to update your system PATH, add %DERBY_HOME%\bin to the end of the PATH environment variable
Tip: When the DERBY_HOME environment variable is set and the underlying /bin directory is included in the PATH environment variable, you can use shortened commands to start the Derby tools. Otherwise, either you must be in the directory where the script that starts the Derby tool is located, or you must specify the full path to the location of the script when you want to start the tool.
For more information on the scripts included in the bin distribution, see Scripts included with Derby.
Syntax for the derbyrun.jar file
The derbyrun.jar file is a special JAR file that simplifies how you invoke the Derby tools and the Network Server.
With the derbyrun.jar file, you can run the Derby tools and utilities using shortened names and you do not need to set the java CLASSAPATH environment variable. The derbyrun.jar file must be in the same folder as the other Derby JAR files.
Syntax
The syntax for using derbyrun.jar for each of the Derby tools is as follows:
Operating System
Command
UNIX (Korn Shell)
java -jar $DERBY_HOME/lib/derbyrun.jar ij [-p propertiesfile] [sql_script] java -jar $DERBY_HOME/lib/derbyrun.jar sysinfo [-cp ...] [-cp help] java -jar $DERBY_HOME/lib/derbyrun.jar dblook [arg]* (or no arguments for usage) java -jar $DERBY_HOME/lib/derbyrun.jar server [arg]* (or no arguments for usage)
Windows
java -jar %DERBY_HOME%\lib\derbyrun.jar ij [-p propertiesfile] [sql_script] java -jar %DERBY_HOME%\lib\derbyrun.jar sysinfo [-cp ...] [-cp help] java -jar %DERBY_HOME%\lib\derbyrun.jar dblook [arg]* (or no arguments for usage) java -jar %DERBY_HOME%\lib\derbyrun.jar server [arg]* (or no arguments for usage)
To see this syntax reminder, run the command java -jar derbyrun.jar with no arguments.
Additional information
The server argument is a shortcut for running the NetworkServerControl tool. For details on using this tool, see the Java DB Server and Administration Guide.
For more information on using derbyrun.jar to run the ij, sysinfo, and dblook tools, see the Java DB Tools and Utilities Guide.
Manually setting the CLASSPATH environment variable
You can set the CLASSPATH environment variable in the operating system either temporarily, permanently, or at run time when you start your Java application and the JVM.
The classpath is a list of the class libraries that are needed by the JVM and other Java applications to run your program. There are scripts that are included with Derby that can set up the classpath to run the Derby tools.
If you want to call the Derby tools directly using Java and not using the scripts, you must manually set the CLASSPATH environment variable.
In most development environments, it is best to temporarily set the CLASSPATH environment variable in the command line shell where you are entering commands.
Derby provides several scripts in the DERBY_HOME/bin directory to help you set your classpath quickly. These scripts are:
setEmbeddedCP
Use the setEmbeddedCP script to set the classpath when the database engine is used in embedded mode. This script adds the derby.jar and derbytools.jar files to the classpath.
setNetworkServerCP
Use the setNetworkServerCP script to set the classpath when you want to start the network server. This script adds the derbynet.jar file to the classpath.
setNetworkClientCP
Use the setNetworkClientCP script to set the classpath when you want to access databases using the network client. This script adds the derbyclient.jar and derbytools.jar files to the classpath.
To set the classpath temporarily, run the script that is appropriate for your environment every time that you open a new command window.
To see the classpath that the script sets, issue the following command after you run the script:
 
On UNIX, use echo $CLASSPATH
 
On Windows, use echo %CLASSPATH%
For more information on running the ij and sysinfo utilities, see the Java DB Tools and Utilities Guide
Using the Derby tools and startup utilities
There are several tools and utilities that you might want to use as you begin to work with Derby.
The tools that are included with Derby are dblook, ij, and sysinfo. To run these tools see:
Derby includes a set of scripts that you can use to start the Derby tools. The scripts are located in the DERBY_HOME/bin directory. When you run these scripts, your CLASSPATH environment variable is set if you have not already set it, and remains set as long as you are running the tool.
Most of the examples in this guide that show how to use the Derby scripts to launch the Derby tools assume that you are using the embedded mode of the Derby database engine. Use the instructions below to run the scripts with the Network Server.
Running the scripts with the Network Server
To run the scripts with the Network Server, use the following commands:
 
For the sysinfo tool, issue the command
NetworkServerControl sysinfo
 
For the ij tool, issue the command
set DERBY_OPTS=-Dij.protocol=jdbc:derby://localhost/
and then start ij by issuing the command ij.
 
For the dblook tool, call the script and specify the -d option and the full connection URL to the Network Server database. For example:
dblook -d 'jdbc:derby://localhost/myDB;user=usr'
Additional Derby utilities
In addition, there are Derby utilities that are system procedures that you can call by using the ij tool. For example, there are system procedures that you can use to import and export external files. Instructions on how to use these system procedures are included in the Java DB Tools and Utilities Guide and the Java DB Reference Manual.
Running sysinfo
The Derby sysinfo tool displays information about your Java environment and your version of Derby.
The sysinfo utility prints system information to a console.
Choose the method that you can use to run the sysinfo script:
Method
When to Use
Command
Run sysinfo as a standalone command.
Use this method if you are relatively new to the Java programming language and new to Derby.
You must set your environment variables before you can run the sysinfo utility using this method.
To run the sysinfo script from the command line us:
sysinfo
The sysinfo script sets the appropriate environment variables, including the CLASSPATH, and runs the sysinfo utility.
Run sysinfo using the jar file that is located in the directory where sysinfo resides.
Use this method if you are new to Derby, but are familiar with the Java programming language.
You must set the DERBY_HOME environment variable before you can run the sysinfo utility using this method.
On UNIX, the command is:
java [options] -jar $DERBY_HOME/lib/derbyrun.jar sysinfo
On Windows, the command is:
java [options] -jar %DERBY_HOME%\lib\derbyrun.jar sysinfo
Run sysinfo using the java command.
Use this method if you are familiar with both the Java programming language and Derby, and you have already set the java.exe file in your command execution PATH.
You must set your CLASSPATH. Use the steps specified in Manually setting the CLASSPATH environment variable. Then specify the class name in the java command. For example:
java org.apache.derby.tools.sysinfo
See "sysinfo" in the Java DB Tools and Utilities Guide for more information about using the sysinfo utility.
Running ij
The Derby ij tool is a JDBC tool that you can use to run scripts or interactive queries against a Derby database.
 
Choose the method that you can use to run the ij script:
Method
When to Use
Command
Run ij as a standalone command.
Use this method if you are relatively new to the Java programming language and new to Derby.
You must set your environment variables before you can run the ij tool using this method. To run the ij script from the command line use:
ij
You must add the DERBY_HOME/bin directory in your PATH environment variable before you can run the ij tool.
The ij script sets up the environment variables like CLASSPATH and starts the ij tool.
Run ij using the jar file that is located in the directory where ij resides.
Use this method if you are new to Derby, but are familiar with the Java programming language.
You must set the DERBY_HOME environment variable before you can run the ij tool using this method.
On UNIX, the command is:
java -jar $DERBY_HOME/lib/derbyrun.jar ij
On Windows, the command is:
java -jar %DERBY_HOME%\lib\derbyrun.jar ij
Run ij using the java command.
Use this method if you are familiar with both the Java programming language and Derby, and you have already set the java.exe file in your command execution PATH.
You must set your CLASSPATH. Use the steps specified in Manually setting the CLASSPATH environment variable. Then specify the class name in the java command. For example:
java org.apache.derby.tools.ij
 
When you are ready to leave the ij tool, type:
ij> exit;
See the Java DB Tools and Utilities Guide for more information about the ij tool.
Running dblook
The Derby dblook utility is a Data Definition Language (DDL) generation utility.
The dblook utility is a simple utility that dumps all or parts of the DDL of a user-specified database to either a console or a file. The generated DDL can then be used for such things as recreating all or parts of a database, viewing a subset of the objects in a database (for example, those objects that pertain to specific tables and schemas), or documenting the schema of a database.
Choose the method that you can use to run the dblook script:
Method
When to Use
Command
Run dblook as a standalone command.
Use this method if you are relatively new to the Java programming language and new to Derby.
You must set your environment variables before you can run the dblook utility using this method.
To run the dblook script from the command line use:
dblook -d connectionURL [options]
The dblook script sets the appropriate environment variables, including the CLASSPATH, and runs the dblook utility.
Run dblook using the jar file that is located in the directory where dblook resides.
Use this method if you are new to Derby, but are familiar with the Java programming language.
You must set the DERBY_HOME environment variable before you can run the dblook utility using this method.
On UNIX, the command is:
java [options] -jar $DERBY_HOME/lib/derbyrun.jar dblook -d connectionURL [options]
On Windows, the command is:
java [options] -jar %DERBY_HOME%\lib\derbyrun.jar dblook -d connectionURL [options]
Run dblook using the java command.
Use this method if you are familiar with both the Java programming language and Derby, and you have already set your command execution PATH to the location of your java command.
You must set your CLASSPATH. Use the steps specified in Manually setting the CLASSPATH environment variable. Then specify the class name in the java command. For example:
java org.apache.derby.tools.dblook -d connectionURL [options]
See Using the Derby tools and startup utilities for an example of the use of the connectionURL. See "dblook" and its subtopics in the Java DB Tools and Utilities Guide for more information about using the dblook utility.
Verifying the Derby system configuration
You should confirm that your computer has the correct software installed and that the environment variables are set before you start working with Derby.
To check the Derby system configuration:
1.
 
Verify that the java.exe file, version 1.4.2 or, higher is in your command execution PATH by opening a command window and running the java -version command.
The output from the command looks something like this:
java version "1.4.2_04" Java(TM) 2 Runtime Environment, Standard Edition (build 1.4.2_04-b05) Java HotSpot(TM) Client VM (build 1.4.2_04-b05, mixed mode)
The output you see might be different from what is shown here because the java -version command outputs vendor-specific information. If the command produces an error or the version listed is not 1.4 or higher, install a JDK before continuing.
2.
 
Verify that the DERBY_HOME environment variable is set and points to the root directory of the Derby 10.5 installation. Open a command window and run the appropriate command for your system.
If you installed Derby in the /opt/Derby_10 directory on UNIX or the c:\Derby_10 directory on Windows, the command that you use and the expected output are shown in the following table:
Operating System
Command
Output
UNIX (Korn Shell)
echo $DERBY_HOME
/opt/Derby_10
Windows
echo %DERBY_HOME%
C:\Derby_10
If you receive an error or do not see the expected output, ensure that you have set the DERBY_HOME environment variable, as described in Setting the environment variables.
Note: You can also use the sysinfo utility to verify that the environment variables are set correctly. If the environment variables are set correctly, the sysinfo command displays information about your Java virtual machine (JVM) and the version of Derby that you have installed.
Self-study tutorial for users new to Derby
To help you get up and running with Derby as quickly as possible, this self-study guide highlights some of the more important features of Derby.
This tutorial uses a series of activities designed to demonstrate the use of Derby in the embedded and client/server configurations. After performing these activities, you will find Derby to be an easy-to-use and fully functional relational database management system (RDBMS).
Tutorial skills and software requirements
To perform the tutorial activities, you do not need to have any prior knowledge of Java software, the Java Database Connectivity (JDBC) API, or SQL. Each activity provides the complete command syntax that you need to use for each operation. Instructions include the syntax for both a UNIX Korn shell and a Windows command prompt.
This tutorial demonstrates, but does not teach, the Java, JDBC and SQL code that is presented. If you want a deeper understanding of these topics, you will need to consult additional reference materials.
To perform the tutorial activities, you must have:
 
A Java Development Kit (JDK) version 1.4 or higher installed on your computer
 
The binary (bin) installation of Apache Derby version 10.5 installed on your computer
 
A basic knowledge of the computer command line interface:
 
How to start a command shell or window
 
How to navigate the file system hierarchy
System configuration
You should verify the system configuration before you perform the tutorial activities.
Problems and feedback on the tutorial activities
If you experience problems with any aspect of the tutorial activities, send an e-mail message to derby-user@db.apache.org. Someone from the Derby community will respond to your message.
The questions and feedback received will be used to make this tutorial more useful.
Tutorial overview
Each activity in this self-study tutorial highlights an important feature of Derby.
Here is what you can expect to learn in each activity:
Activity 1:
Use the Derby ij tool to load the Derby embedded driver and start the Derby database engine. Create the database firstdb and the table FIRSTTABLE. Use a few basic SQL statements to insert and select data. The Derby message log derby.log and the database directories and files are introduced.
Activity 2:
Use Derby within a client/server configuration. Start the Derby Network Server, which will embed the Derby engine. In a separate process, use the Derby ij tool to load the Derby client driver and connect to the Network Server. Create a database called seconddb and the table SECONDTABLE. Use a few basic SQL statements to insert and select data.
Activity 3:
Load the Derby database engine from a simple Java JDBC program. Use the embedded driver to create the database jdbcDemoDB and the WISH_LIST table. Populate the table with text entered from the keyboard, then view a list of the records in the table. Walk through the code to understand the basic structure of a JDBC program that accesses a Derby database. The CLASSPATH variable and connection URL attribute ;shutdown=true are introduced.
Activity 4:
Modify the Java JDBC program to load the client driver and connect to the Derby Network Server. Compile the altered program and test that the program operates as it did in the previous activity.
Activity 1: Run SQL using the embedded driver
In this activity, you will use the embedded driver to load the Derby database engine, create and connect to a database, and use some basic SQL statements.
To run SQL using the embedded driver:
Creating a directory and copying scripts into the directory
To help you complete this activity, you must create a directory and copy several scripts into the new directory. You will use these scripts to quickly add tables and data to a new Derby database.
Tip: A command prompt appears after each command is run. If an error occurs, verify the syntax and retype the command.
1.
 
Open a command window and change to a directory where you want to store the files that you create during the self-study tutorial activities.
2.
 
Create the DERBYTUTOR directory. DERBYTUTOR will be your working directory for this activity.
Operating System
Command
UNIX (Korn Shell)
mkdir DERBYTUTOR
Windows
md DERBYTUTOR
3.
 
Change to the DERBYTUTOR directory.
Operating System
Command
UNIX (Korn Shell)
cd DERBYTUTOR
Windows
cd DERBYTUTOR
4.
 
Copy the SQL scripts from the Derby  demo\programs\toursdb subdirectory into the DERBYTUTOR directory. You will use these scripts to create tables and add data to a new database, toursdb.
Operating System
Command
UNIX (Korn Shell)
cp $DERBY_HOME/demo/programs/toursdb/*.sql .
Windows
copy %DERBY_HOME%\demo\programs\toursdb\*.sql .
5.
 
Verify that the files were copied to the DERBYTUTOR directory.
Operating System
Command
UNIX (Korn Shell)
ls DERBYTUTOR
Windows
dir DERBYTUTOR
> Important: Include the dot (.) at the end of each command so that your current working directory is included in the classpath and the files are copied to the correct location.
Creating a Derby database and running SQL statements
Now, you will use the Derby ij tool to load the Derby database engine. You will use the Derby embedded driver to create and connect to the firstdb database. You will also use a few basic SQL statements to create and populate a table.
1.
 
Run the Derby ij tool.
If you included the DERBY_HOME/bin directory in your PATH environment variable, type:
ij
Otherwise, you can use the java command to start the ij tool.
Operating System
Command
UNIX (Korn Shell)
java -jar $DERBY_HOME/lib/derbyrun.jar ij ij version 10.5
Windows
java -jar %DERBY_HOME%\lib\derbyrun.jar ij ij version 10.5
2.
 
Create the database and open a connection to the database using the embedded driver.
CONNECT 'jdbc:derby:firstdb;create=true';
Description of connection command:
connect
The ij command to establish a connection to a database. The Derby connection URL is enclosed in single quotation marks. An ij command can be in either uppercase or lowercase.
jdbc:derby:
The JDBC protocol specification for the Derby driver.
firstdb
The name of the database. The name can be any string. Because no filepath is specified, the database is created in the default working directory (DERBYTUTOR).
;create=true
The Derby URL attribute that is used to create a database. Derby does not have an SQL create database command.
;
The semicolon is the ij command terminator.
3.
 
Create a table with two columns using standard SQL.
CREATE TABLE FIRSTTABLE (ID INT PRIMARY KEY, NAME VARCHAR(12)); 0 rows inserted/updated/deleted
4.
 
Insert three records.
INSERT INTO FIRSTTABLE VALUES (10,'TEN'),(20,'TWENTY'),(30,'THIRTY'); 3 rows inserted/updated/deleted
5.
 
Perform a simple select of all records in the table.
SELECT * FROM FIRSTTABLE; ID |NAME ------------------------ 10 |TEN 20 |TWENTY 30 |THIRTY 3 rows selected
6.
 
Perform a qualified select of the record with column ID=20.
SELECT * FROM FIRSTTABLE WHERE ID=20; ID |NAME ------------------------ 20 |TWENTY 1 row selected
7.
 
Optional: Create and populate additional tables and other schema objects.
a.
 
Load the SQL script ToursDB_schema.sql.
run 'ToursDB_schema.sql'; ij> ... CREATE TABLE AIRLINES ( AIRLINE CHAR(2) NOT NULL , AIRLINE_FULL VARCHAR(24), BASIC_RATE DOUBLE PRECISION, ... 0 rows inserted/updated/deleted ... Other output messages not shown ...
b.
 
Populate the tables with data by running the script loadTables.sql.
run 'loadTables.sql'; ij> run 'loadCOUNTRIES.sql'; ij> insert into COUNTRIES values ( 'Afghanistan','AF','Asia'); 1 row inserted/updated/deleted ij> insert into COUNTRIES values ( 'Albania','AL','Europe'); 1 row inserted/updated/deleted ... Other output messages not shown ...
8.
 
Exit the ij tool.
exit;
You should be returned to the DERBYTUTOR directory.
9.
 
Browse the most important files created by this activity:
 
The derby.log file. This file is a message and error log that, under normal circumstances, contains a set of startup messages and a shutdown message.
---------------------------------------------------------------- 2009-05-08 16:55:29.736 GMT: Booting Derby version The Apache Software Foundation - Apache Derby - 10.5.1.1 - (764942): instance a816c00e-0121-2126-a56a-000000418588 on database directory C:\DERBYTUTOR\firstdb Database Class Loader started - derby.database.classpath='' 2009-05-08 16:56:37.367 GMT: Shutting down instance a816c00e-0121-2126-a56a-000000418588 ----------------------------------------------------------------
 
The firstdb database directory. Within the directory are the subdirectories seg0 (containing the data files) and log (containing the transaction log files).
Activity 2: Run SQL using the client driver
This activity uses Derby within a client/server configuration by using the Network Server. The ij tool is the client application that connects to the Derby Network Server. In this activity, you create a database called seconddb and run some basic SQL statements.
This activity assumes that you know how to open a command shell and change to the DERBYTUTOR directory.
You use two command windows (referred to as Shell-1 and Shell-2) in this activity. You use Shell-1 to start the Derby Network Server and display Network Server messages. You use Shell-2 to establish a client connection to the Network Server using ij and then perform some basic SQL operations.
1.
 
Open a command window (Shell-1) and change to the DERBYTUTOR directory.
2.
 
Start the Network Server.
Operating System
Command
UNIX (Korn Shell)
java -jar $DERBY_HOME/lib/derbyrun.jar server start 2009-05-08 17:00:50.077 GMT : Security manager installed using the Basic server security policy. 2009-05-08 17:00:50.798 GMT : Apache Derby Network Server - 10.5.1.1 - (764942) started and ready to accept connections on port 1527
Windows
java -jar %DERBY_HOME%\lib\derbyrun.jar server start 2009-05-08 17:00:50.077 GMT : Security manager installed using the Basic server security policy. 2009-05-08 17:00:50.798 GMT : Apache Derby Network Server - 10.5.1.1 - (764942) started and ready to accept connections on port 1527
A Network Server startup message appears in the Shell-1 command window.
3.
 
Open another command window (Shell-2). Change to the DERBYTUTOR directory.
4.
 
Start ij.
If you included the DERBY_HOME/bin directory in your PATH environment variable, type:
ij
Otherwise, you can use the java command to start the ij tool.
Operating System
Command
UNIX (Korn Shell)
java -jar $DERBY_HOME/lib/derbyrun.jar ij ij version 10.5
Windows
java -jar %DERBY_HOME%\lib\derbyrun.jar ij ij version 10.5
You will enter all subsequent commands from the network client, so you will type the commands in the Shell-2 command window.
5.
 
Create and open a connection to the database using the client driver.
CONNECT 'jdbc:derby://localhost:1527/seconddb;create=true';
Remember: A client connection URL contains a hostname and a port number. For example: //localhost:1527/
6.
 
Create a table with two columns (ID and NAME) using the following SQL statement:
CREATE TABLE SECONDTABLE (ID INT PRIMARY KEY, NAME VARCHAR(14)); 0 rows inserted/updated/deleted
7.
 
Insert three records into the table.
INSERT INTO SECONDTABLE VALUES (100,'ONE HUNDRED'),(200,'TWO HUNDRED'),(300,'THREE HUNDRED'); 3 rows inserted/updated/deleted
8.
 
Select all of the records in the table.
SELECT * FROM SECONDTABLE; ID |NAME ------------------------ 100 |ONE HUNDRED 200 |TWO HUNDRED 300 |THREE HUNDRED 3 rows selected
9.
 
Select a subset of records from the table by specifying a WHERE clause.
SELECT * FROM SECONDTABLE WHERE ID=200; ID |NAME ------------------------ 200 |TWO HUNDRED 1 row selected
10.
 
Exit ij.
exit;
11.
 
Shut down the Derby Network Server.
Operating System
Command
UNIX (Korn Shell)
java -jar $DERBY_HOME/lib/derbyrun.jar server shutdown 2009-05-08 17:07:25.887 GMT : Apache Derby Network Server - 10.5.1.1 - (764942) shutdown
Windows
java -jar %DERBY_HOME%\lib\derbyrun.jar server shutdown 2009-05-08 17:07:25.887 GMT : Apache Derby Network Server - 10.5.1.1 - (764942) shutdown
The server shutdown confirmation appears in both command windows.
Activity notes
The client connection URL contains network information (hostname and portnumber) not found in the URL for an embedded connection. This information tells the client driver the location of the Network Server. The client driver sends requests to and receives responses from the Network Server.
In this activity the Derby database engine is embedded in the Network Server and returns data to the ij client (a client/server configuration). In contrast, establishing a connection using an embedded URL (one without //localhost:1527/) would have caused the Derby engine to be embedded in the ij application (an embedded configuration).
In this configuration, multiple client programs can connect to the Network Server and access the database simultaneously. (This activity does not demonstrate this capability.)
Activity 3: Run a JDBC program using the embedded driver
This activity loads the Derby database engine using a simple Java JDBC program.
This activity assumes that you have opened a command window and navigated to the DERBYTUTOR directory.
JDBC is the Java Database Connectivity API and is also the native API for Derby. The program uses the embedded driver to create the jdbcDemoDB database (if the database does not exist) and then connect to the database. You can then populate a table within the database with text. The program demonstrates some basic JDBC processing along with related error handling.
The Java compiler and runtime use the classpath, specified by the CLASSPATH environment variable, to locate the binary files (jar files and class files) that are needed to run Derby and other Java applications. Before performing this activity, you need to set the classpath and compile the WwdEmbedded.java program.
1.
 
Copy the program files into the DERBYTUTOR directory and set the CLASSPATH environment variable.
Operating System
Commands
UNIX (Korn Shell)
cp $DERBY_HOME/demo/programs/workingwithderby/* . export CLASSPATH=$DERBY_HOME/lib/derby.jar:.
Windows
copy %DERBY_HOME%\demo\programs\workingwithderby\* . set CLASSPATH=%DERBY_HOME%\lib\derby.jar;.
> Important: Include the dot (.) at the end of each command so that your current working directory is included in the classpath and the files are copied to the correct location.
2.
 
Compile the WwdEmbedded.java program.
javac WwdEmbedded.java
> Important: A command prompt appears if the compilation is successful. The binary file WwdEmbedded.class is created. If an error message appears, verify that the JDK is properly installed.
3.
 
Run the program.
The WwdEmbedded.java program populates a table with wish-list items. The program prompts you for text input (up to 32 characters), stores the text input in a database table, and then lists the items stored in the table. The program continues to ask for wish-list items until the you type the command exit or a problem is encountered. Some basic information on program progress is displayed at the beginning and the end of the program.
java WwdEmbedded org.apache.derby.jdbc.EmbeddedDriver loaded. Connected to database jdbcDemoDB . . . . creating table WISH_LIST Enter wish-list item (enter exit to end): a peppermint stick __________________________________________________________ On 2009-05-08 13:12:09.058 I wished for a peppermint stick __________________________________________________________ Enter wish-list item (enter exit to end): a long vacation __________________________________________________________ On 2009-05-08 13:12:09.058 I wished for a peppermint stick On 2009-05-08 13:12:21.28 I wished for a long vacation __________________________________________________________ Enter wish-list item (enter exit to end): exit Closed connection Database shut down normally Getting Started With Derby JDBC program ending.
The WwdEmbedded program
This section describes the WwdEmbedded.java program, highlighting details specific to accessing a Derby database from a JDBC program.
Most of the code related to the database activities performed is included in this section, but you might find it helpful to open the program file and follow along in a text viewer or editor. The SECTION NAMES referred to in this section can be found in the comments within the program code and serve as cross-reference points between this section and the Java program. The program uses methods from the WwdUtils class. The utility class code is not described here but is available for review in the file WwdUtils.java.
Initialize the program
INITIALIZATION SECTION: The initial lines of code identify the Java packages used in the program, then set up the Java class WwdEmbedded and the main method signature. Refer to a Java programming guide for information on these program constructs.
import java.sql.*; public class WwdEmbedded { public static void main(String[] args) {
Define key variables and objects
DEFINE VARIABLES SECTION: The initial lines of the main method define the variables and objects used in the program. This example uses variables to store the information needed to connect to the Derby database. The use of variables for this information makes it easy to adapt the program to other configurations and other databases.
driver
Stores the name of the Derby embedded driver.
dbName
Stores the name of the database.
connectionURL
Stores the Derby connection URL that is used to access the database.
createString
Stores the SQL CREATE statement for the WISH_LIST table.
String driver = "org.apache.derby.jdbc.EmbeddedDriver"; String dbName="jdbcDemoDB"; String connectionURL = "jdbc:derby:" + dbName + ";create=true"; ... String createString = "CREATE TABLE WISH_LIST " + "(WISH_ID INT NOT NULL GENERATED ALWAYS AS IDENTITY " ... + " WISH_ITEM VARCHAR(32) NOT NULL) " ;
Start the Derby engine
LOAD DRIVER SECTION: Loading the Derby embedded JDBC driver starts the Derby database engine. The try and catch block (the Java error-handling construct) catches the exceptions that may occur. A problem here is usually due to an incorrect classpath setting.
String driver = "org.apache.derby.jdbc.EmbeddedDriver"; ... try { Class.forName(driver); } catch(java.lang.ClassNotFoundException e) { ... }
If you are using JDK 6 or higher, this code fragment is not needed, because you do not need to load the driver explicitly. In a JDK 6 environment, the driver loads automatically when you obtain a connection to the database.
Boot the database
BOOT DATABASE SECTION: The DriverManager class loads the database using the Derby connection URL stored in the variable connectionURL. This URL includes the parameter ;create=true so that the database will be created if it does not already exist. The primary try and catch block begins here. This construct handles errors for the database access code.
String connectionURL = "jdbc:derby:" + dbName + ";create=true"; ... try { conn = DriverManager.getConnection(connectionURL); ... <most of the program code is contained here> } catch (Throwable e) { ... }
Set up program to execute SQL
INITIAL SQL SECTION: The program initializes the objects needed to perform subsequent SQL operations and checks to see if the required data table exists.
The statement object s is initialized. If the utility method WwdUtils.wwdChk4Table does not find the WISH_LIST table, the statement object's execute method creates the table by executing the SQL stored in the variable createString.
s = conn.createStatement(); if (! WwdUtils.wwdChk4Table(conn)) { System.out.println (" . . . . creating table WISH_LIST"); s.execute(createString); }
The INSERT statement used to add data to the table is bound to the prepared statement object psInsert. The prepared statement uses the question mark parameter ? to represent the data that will be inserted by the user. The program sets the actual value to be inserted later on, before executing the SQL. This is the most efficient way to execute SQL statements that will be used multiple times.
psInsert = conn.prepareStatement ("insert into WISH_LIST(WISH_ITEM) values (?)");
Interact with the database
ADD / DISPLAY RECORD SECTION: This section uses the utility method WwdUtils.getWishItem to gather information from the user. It then uses the objects set up previously to insert the data into the WISH_LIST table and then display all records. A standard do loop causes the program to repeat this series of steps until the user types exit. The data-related activities performed in this section are as follows:
 
The setString method sets the substitution parameter of the psInsert object to the value typed by the user. Then the executeUpdate method performs the database insert.
psInsert.setString(1,answer); psInsert.executeUpdate();
 
The statement object s is used to select all the records in the WISH_LIST table and store them in the ResultSet named myWishes.
myWishes = s.executeQuery("select ENTRY_DATE, WISH_ITEM from WISH_LIST order by ENTRY_DATE");
The while loop reads each record in turn by calling the next method. The getTimestamp and getString methods return specific fields in the record in the proper format. The fields are displayed using rudimentary formatting.
while (myWishes.next()) { System.out.println("On " + myWishes.getTimestamp(1) + " I wished for " + myWishes.getString(2)); }
Close the ResultSet to release the memory being used.
myWishes.close();
Shut down the database
DATABASE SHUTDOWN SECTION: If an application starts the Derby engine, the application should shut down all databases before exiting. The attribute ;shutdown=true in the Derby connection URL performs the shutdown. When the Derby engine is shutdown, all booted databases will automatically shut down. The shutdown process cleans up records in the transaction log to ensure a faster startup the next time the database is booted.
Tip: You can shut down individual databases without shutting down the engine by including the database name in the connection URL.
"This section verifies that the embedded driver is being used, then issues the shutdown command and catches the shutdown exception to confirm that the Derby engine shut down cleanly. The shutdown status is displayed before the program exits.
if (driver.equals("org.apache.derby.jdbc.EmbeddedDriver")) { boolean gotSQLExc = false; try { DriverManager.getConnection("jdbc:derby:;shutdown=true"); } catch (SQLException se) { if ( se.getSQLState().equals("XJ015") ) { gotSQLExc = true; } } if (!gotSQLExc) { System.out.println("Database did not shut down normally"); } else { System.out.println("Database shut down normally"); } }
> Important: The XJ015 error (successful shutdown of the Derby engine) and the 08006 error (successful shutdown of a single database) are among the few exceptions thrown by Derby that indicate that an operation succeeded. Most other exceptions indicate that an operation failed. You should check the log file to be certain.
The errorPrint and SQLExceptionPrint methods
DERBY EXCEPTION REPORTING CLASSES: The two methods at the end of the file, errorPrint and SQLExceptionPrint, are generic exception-reporting methods that can be used with any JDBC program. This type of exception handling is required because often multiple exceptions (SQLException) are chained together and then thrown. A while loop is used to report on each error in the chain. The program starts this process by calling the errorPrint method from the catch block of the code that accesses the database.
// Beginning of the primary catch block: uses errorPrint method } catch (Throwable e) { /* Catch all exceptions and pass them to ** the exception reporting method */ System.out.println(" . . . exception thrown:"); errorPrint(e); }
The errorPrint method prints a stack trace for all exceptions except a SQLException. Each SQLException is passed to the SQLExceptionPrint method.
static void errorPrint(Throwable e) { if (e instanceof SQLException) SQLExceptionPrint((SQLException)e); else { System.out.println("A non SQL error occured."); e.printStackTrace(); } } // END errorPrint
The SQLExceptionPrint method iterates through each of the exceptions on the stack. For each error, the method displays the codes, message, and stacktrace.
// Iterates through a stack of SQLExceptions static void SQLExceptionPrint(SQLException sqle) { while (sqle != null) { System.out.println("\n---SQLException Caught---\n"); System.out.println("SQLState: " + (sqle).getSQLState()); System.out.println("Severity: " + (sqle).getErrorCode()); System.out.println("Message: " + (sqle).getMessage()); sqle.printStackTrace(); sqle = sqle.getNextException(); } } // END SQLExceptionPrint
To see the output produced by this method, type a wish-list item with more than 32 characters, such as I wish to see a Java program fail.
Activity 4: Create and run a JDBC program using the client driver and Network Server
This activity demonstrates the ease with which a program that embeds Derby can be modified for a client/server implementation that uses the Derby Network Server.
This activity assumes you have performed the preceding activities and have a working directory called DERBYTUTOR, and have copies of the program files from the $DERBY_HOME/demo/programs/workingwithderby/ directory. A basic knowledge of the WwdEmbedded.java program and experience starting and connecting to the Network Server are helpful. You will need to use a text editor to create the WwdClient.java program.
You will create a Derby client program, WwdClient.java, by changing a few lines of the WwdEmbedded.java program. You can run the client program in multiple command shells, allowing simultaneous update from two or more sources.
You use two command windows (Server-Shell and Client-Shell) in this activity. You use the Server-Shell to start the Derby Network Server and display Network Server messages. You use the Client-Shell to edit, compile and run the newly created WwdClient.java program. You set the CLASSPATH environment variable in the Client-Shell to support the client JDBC program.
1.
 
Create the WwdClient program using the following steps:
a.
 
Open a command window (Client-Shell).
b.
 
Change to the DERBYTUTOR directory.
c.
 
Make a copy of the WwdEmbedded.java program called WwdClient.java.
Operating System
Command
UNIX (Korn Shell)
cp WwdEmbedded.java WwdClient.java
Windows
copy WwdEmbedded.java WwdClient.java
d.
 
Open the WwdClient.java file in a text editor and update the class name to reflect the new file name:
Original declaration public class WwdEmbedded New declaration public class WwdClient
e.
 
Edit the DEFINE VARIABLES SECTION of the program so that the driver variable contains the name of the Derby client driver class and the connectionURL variable contains the hostname and port number of the Network Server.
Original definitions String driver = "org.apache.derby.jdbc.EmbeddedDriver"; String dbName="jdbcDemoDB"; String connectionURL = "jdbc:derby:" + dbName + ";create=true"; New definitions String driver = "org.apache.derby.jdbc.ClientDriver"; ... String connectionURL = "jdbc:derby://localhost:1527/" + dbName + ";create=true";
f.
 
Compile the application.
javac WwdClient.java
A command prompt appears if the compilation is successful. The binary file WwdClient.class is created. If an error message appears, modify the line indicated so that it is identical to the example.
2.
 
Set up the client/server environment using the following steps:
a.
 
Open a command window (Server-Shell).
b.
 
Change to the DERBYTUTOR directory.
c.
 
Start the Network Server:
Operating System
Command
UNIX (Korn Shell)
java -jar $DERBY_HOME/lib/derbyrun.jar server start 2009-05-08 17:24:16.031 GMT : Security manager installed using the Basic server security policy. 2009-05-08 17:24:16.665 GMT : Apache Derby Network Server - 10.5.1.1 - (764942) started and ready to accept connections on port 1527
Windows
java -jar %DERBY_HOME%\lib\derbyrun.jar server start 2009-05-08 17:24:16.031 GMT : Security manager installed using the Basic server security policy. 2009-05-08 17:24:16.665 GMT : Apache Derby Network Server - 10.5.1.1 - (764942) started and ready to accept connections on port 1527
3.
 
Run the client program using the following steps:
a.
 
Return to the Client-Shell window.
b.
 
If not already set, set the CLASSPATH environment variable to include the location of the file derbyclient.jar:
Operating System
Command
UNIX (Korn Shell)
export CLASSPATH=$DERBY_HOME/lib/derbyclient.jar:.
Windows
set CLASSPATH=%DERBY_HOME%\lib\derbyclient.jar;.
> Important: Include the dot (.) at the end of the command so that your current working directory is included in the classpath.
c.
 
Run the program:
java WwdClient org.apache.derby.jdbc.ClientDriver loaded. Connected to database jdbcDemoDB Enter wish-list item (enter exit to end): a sunny day __________________________________________________________ On 2009-05-08 13:12:09.058 I wished for a peppermint stick On 2009-05-08 13:12:21.28 I wished for a long vacation On 2009-05-08 13:27:22.581 I wished for a sunny day __________________________________________________________ Enter wish-list item (enter exit to end): a new car __________________________________________________________ On 2009-05-08 13:12:09.058 I wished for a peppermint stick On 2009-05-08 13:12:21.28 I wished for a long vacation On 2009-05-08 13:27:22.581 I wished for a sunny day On 2009-05-08 13:27:42.105 I wished for a new car __________________________________________________________ Enter wish-list item (enter exit to end): exit Closed connection Getting Started With Derby JDBC program ending.
4.
 
Shut down the Network Server:
Operating System
Command
UNIX (Korn Shell)
java -jar $DERBY_HOME/lib/derbyrun.jar server shutdown 2009-05-08 17:28:47.171 GMT : Apache Derby Network Server - 10.5.1.1 - (764942) shutdown
Windows
java -jar %DERBY_HOME%\lib\derbyrun.jar server shutdown 2009-05-08 17:28:47.171 GMT : Apache Derby Network Server - 10.5.1.1 - (764942) shutdown
The server shutdown confirmation appears in both command windows.
Activity notes
In a client/server environment, the client program is often used from other computers on the network. Whenever a system accepts connections from other computers, there is a chance of abuse. To maintain security, the Derby Network Server defaults to accepting connections only from clients running on the local machine (localhost). Before this or any other Derby client program can access the Network Server from another machine, additional steps should be taken to secure the Network Server environment. Once secured, the Network Server can be safely configured to accept connections from other machines. Refer to the "Network Server security" and "Running the Network Server under the security manager" sections of the Java DB Server and Administration Guide for important information on securing the Network Server and enabling network connections.
With the Network Server started, you can run the client program simultaneously in multiple windows. To demonstrate this, open two command windows and perform the substeps of the "Run the client program" step in each window. Both clients will operate without a problem. In contrast, it would not be possible for a program that uses the embedded driver (for example, WwdEmbedded.java) to access the database until the database or the Network Server is shut down.
You may have noticed that the client program does not shut down the database. This is because the database is a shared resource in a client/server environment and, in most cases, should be shut down only when the Network Server is shut down. If multiple clients are accessing the database and one client shuts down the database, the remaining clients will encounter a failure the next time they attempt an SQL command.
Derby's two architectures have caused confusion for some new Derby users, who mistakenly think that embedded is a single-user configuration. This is not true. The embedded driver supports multiple simultaneous connections, performs locking, and provides performance, integrity, and recoverability. Any application that uses the embedded driver can open multiple Derby connections and then provide a means for multiple users to interact with the database on each connection. The Derby Network Server is an example of such an application.
What next with Derby?
Congratulations on completing the activities in this tutorial. You now have experience with using Derby in both the embedded and client/server architectures.
With this basic knowledge, you are ready to begin using Derby to address your own specific needs. As your next step in learning about this lightweight and powerful tool, visit the Apache Derby Web site.
Use this link: WorkingWithDerby Resources page Browser URL: http://wiki.apache.org/db-derby/WorkingWithDerby
Activities summary
We hope these activities have helped you understand the steps needed to create and access Derby databases. Although Derby is easy to set up and use, you will find that it has the features and reliability of much larger database systems. The examples presented here do not begin to scratch the surface of what can be done.
Please take a few moments to become familiar with the many online resources available to Derby users and developers by browsing the Derby Web site at Apache. Whether you are performing a general evaluation of Derby or have a specific need to address, the link to the WorkingWithDerby resources page is a good stepping stone to finding additional information of interest:
 
The Derby Quick Start page is a good reference page organized by area of interest.
 
You will find that many content-rich areas, such as the Derby Wiki and the Derby Users mailing list, are available to you.
 
If you are interested in how others are using Derby, see the Uses of Derby page on the Wiki. This page contains informational links to development projects and products that use Derby. When you implement a system using Derby, please add it to this list.
Quick start guide for experienced JDBC users
This section is for experienced JDBC programmers who already know how to set the classpath, how to run a Java program, and how to use a JDBC driver.
For more detailed information on the topics covered in this section, see the Java DB Developer's Guide and the Java DB Tools and Utilities Guide.
Environments in which Derby can run
Before you configure your system to run Derby, it is useful to understand something about the different environments in which Derby can run, because these environments affect the classpath, driver name, and database connection URL.
See the Java DB Developer's Guide for more information on Derby environments.
Embedded environment
An embedded environment is an environment in which only a single application can access a database at one time, and no network access occurs.
When an application starts an instance of Derby within its JVM, the application runs in an embedded environment. Loading the embedded driver starts Derby.
Client/server environment
A client/server environment is an environment in which multiple applications connect to Derby over the network.
Derby runs embedded in a server framework that allows multiple network connections. (The framework itself starts an instance of Derby and runs in an embedded environment. However, the client applications do not run in the embedded environment.)
You can also embed Derby in any Java server framework.
See the Java DB Server and Administration Guide for more information on how to run Derby on a server.
Available drivers
Different JDBC drivers are available depending on the environment you choose for Derby.
 
org.apache.derby.jdbc.EmbeddedDriver
A driver for embedded environments, when Derby runs in the same JVM as the application.
 
org.apache.derby.jdbc.ClientDriver
A driver for the Network Server environment. The Network Server sets up a client/server environment.
Database connection URL
You must use a database connection URL when using the Derby-provided embedded driver to connect to a database.
The format for the database connection URL for connecting to a database is:
jdbc:derby:databaseName;URLAttributes
where:
 
databaseName
The name of the database that you want to connect to
 
URLAttributes
One or more of the supported attributes of the database connection URL, such as ;territory=ll_CC or ;create=true.
For more information, see the Java DB Developer's Guide.
For the network client driver that is provided by Derby, the format for the database connection URL for connecting to a database is this:
jdbc:derby://server[:port]/databaseName[;URLAttributes=value[;...]]
where the server and port specify the host name (or IP address) and port number where the server is listening for requests and databaseName is the name of the database you want to connect to. The URLAttributes can be either Derby embedded or network client attributes. See the Java DB Server and Administration Guide for more information on accessing the Network Server by using the network client.
Documentation conventions
This section describes the terminology, syntax, and typographical conventions of the Derby documentation.
Terminology
The Derby documentation uses the specialized term environment to describe the method your application uses to interact with Derby.
An environment is sometimes referred to as a framework. The two types of environments are the embedded environment and the client/server environment.
SQL syntax
SQL syntax is presented in modified BNF notation.
The meta-symbols of BNF are:
Symbol
Meaning
|
or. Choose one of the items
[ ]
Enclose optional items.
*
Flags items that you can repeat 0 or more times. Has a special meaning in some SQL statements.
{ }
Groups items so that they can be marked with one of the other symbols, i.e. [ ], |, or *.
( ) . ,
Other punctuation that is part of the syntax.
An example of how SQL syntax is presented:
CREATE [ UNIQUE ] INDEX IndexName ON TableName ( SimpleColumnName [ , SimpleColumnName ] * )
Command-line syntax for running Java programs and utilities (as well as examples) always begins with the word java:
java org.apache.derby.tools.ij
This documentation attempts to be JVM neutral, but any command line examples or syntax using JVM specific references should be verified with your JVM documentation.
Typographical conventions
This documentation uses some typographical conventions to highlight elements of the SQL language, operating system commands, and the Java programming language.
Table 1. Derby typographical conventions
Usage
Typeface
Examples
New terms
Italic
defined by keys
File and directory names
Italic
C:\derby
Dictionary objects
Italic
The Employees table
In syntax, items that you do not type exactly as they appear, but replace with the appropriate name
Italic
CREATE TABLE tableName
SQL examples
Bold and/or fixed-width
SELECT city_name FROM Cities
Java application examples
Bold and/or fixed-width
Connection conn = DriverManager.getConnection ("jdbc:derby:Sample")
Things you type in a command prompt
Bold and/or fixed-width
java org.apache.derby.tools.ij
Comments within examples
Bold and/or fixed-width
--This line ignored
SQL keywords (commands)
All caps
You can use a CREATE TABLE statement
Derby libraries and scripts: complete reference
This section describes Derby libraries and scripts.
Libraries provided by Derby
This section shows the different libraries used by Derby and their purposes.
Engine library
Library Name
Use
derby.jar
For embedded databases.
You always need this library for embedded environments. For client/server environments, you only need this library on the server.
Tools libraries
For embedded environments, you need a library in the classpath to use a tool. For a client/server environment, you need a library on the client only.
Library Names
Use
derbytools.jar
Required for running all the Derby tools (such as ij, dblook, and import/export).
derbyrun.jar
Executable jar file that can be used to start the Derby tools.
The Network Server library
Library Name
Use
derbynet.jar
Required to start the Derby Network Server.
The network client library
Library Name
Use
derbyclient.jar
Required to use the Derby network client driver.
The locale libraries
Library Names
Use
 
derbyLocale_cs.jar
 
derbyLocale_de_DE.jar
 
derbyLocale_es.jar
 
derbyLocale_fr.jar
 
derbyLocale_it.jar
 
derbyLocale_hu.jar
 
derbyLocale_ja_JP.jar
 
derbyLocale_ko_KR.jar
 
derbyLocale_pl.jar
 
derbyLocale_pt_BR.jar
 
derbyLocale_ru.jar
 
derbyLocale_zh_CN.jar
 
derbyLocale_zh_TW.jar
Required to provide translated messages for the indicated locales.
Scripts included with Derby
Derby includes scripts that start the Derby tools, add the appropriate libraries to the CLASSPATH, and start and stop the Network Server. These scripts available only when you download the bin distribution of Derby.
The Derby scripts are located in the /bin directory where you installed Derby. To run the scripts, you need to set several environment variables so that the scripts run correctly. See Setting the environment variables to set the environment variables.
You must run the Derby scripts in an appropriate command line environment, such as a Windows command prompt or a UNIX shell.
The complete list of scripts that are included with Derby is:
bin/dblook
Runs the dblook tool.
bin/ij
Starts the ij tool.
bin/NetworkServerControl
Runs NetworkServerControl.
bin/setEmbeddedCP
Puts all of the Derby libraries for an embedded environment in the CLASSPATH.
bin/setNetworkClientCP
Puts the libraries needed to connect to the Derby Network Server into the CLASSPATH.
bin/setNetworkServerCP
Puts the libraries needed to start the Derby Network Server into the CLASSPATH.
bin/startNetworkServer
Starts the Network Server on the local machine.
bin/stopNetworkServer
Stops the Network Server on the local machine.
bin/sysinfo
Runs the sysinfo tool.
Trademarks
The following terms are trademarks or registered trademarks of other companies and have been used in at least one of the documents in the Apache Derby documentation library:
Cloudscape, DB2, DB2 Universal Database, DRDA, and IBM are trademarks of International Business Machines Corporation in the United States, other countries, or both.
Microsoft, Windows, Windows NT, and the Windows logo are trademarks of Microsoft Corporation in the United States, other countries, or both.
Java and all Java-based trademarks are trademarks of Sun Microsystems, Inc. in the United States, other countries, or both.
UNIX is a registered trademark of The Open Group in the United States and other countries.
Other company, product, or service names may be trademarks or service marks of others.