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Changing to Embedded H2
The following sections describe how to replace the default H2 database with Embedded H2:
H2 is not recommended in production
The embedded H2 database is NOT recommended in enterprise testing and production environments. It has lower performance, clustering limitations, and can cause file corruption failures. Please use an industry-standard RDBMS such as Oracle, PostgreSQL, MySQL, or MS SQL instead.
You can use the embedded H2 database in development environments and as the local registry in a registry mount.
Before you begin
You need to set up Embedded H2 before following the steps to configure your product with it. For more information, see Setting up Embedded H2.
Setting up datasource configurations
A datasource is used to establish the connection to a database. By default, WSO2_CARBON_DB datasource is used to connect to the default H2 database, which stores registry and user management data. After setting up the Embedded H2 database to replace the default H2 database, either change the default configurations of the WSO2_CARBON_DB datasource, or configure a new datasource to point it to the new database as explained below.
Changing the default WSO2_CARBON_DB datasource
Follow the steps below to change the type of the default WSO2_CARBON_DB datasource.
Edit the default datasource configuration in the <PRODUCT_HOME>/repository/conf/datasources/m aster-datasources.xml file as shown below.
<datasource>
<name>WSO2_CARBON_DB</name>
<description>The datasource used for registry and user manager</description>
<jndiConfig>
<name>jdbc/WSO2CarbonDB</name>
</jndiConfig>
<definition type="RDBMS">
<configuration>
<url>jdbc:h2:repository/database/WSO2CARBON_DB;DB_CLOSE_ON_EXIT=FALSE;LOCK_TIMEOUT=60000</url>
<username>wso2carbon</username>
<password>wso2carbon</password>
<driverClassName>org.h2.Driver</driverClassName>
<maxActive>50</maxActive>
<maxWait>60000</maxWait>
<minIdle>5</minIdle>
<testOnBorrow>true</testOnBorrow>
<validationQuery>SELECT 1</validationQuery>
<validationInterval>30000</validationInterval>
<defaultAutoCommit>false</defaultAutoCommit>
</configuration>
</definition>
</datasource>The elements in the above configuration are described below:
Element | Description |
|---|---|
url | The URL of the database. The default port for a DB2 instance is 50000. |
username and password | The name and password of the database user |
driverClassName | The class name of the database driver |
maxActive | The maximum number of active connections that can beallocated atthe same time from this pool. Enter any negative value to denote an unlimited number of active connections. |
maxWait | The maximum number of milliseconds that the pool will wait (when there are no available connections) for a connection to be returned before throwing an exception. You can enter zero or a negative value to wait indefinitely. |
minIdle | The minimum number of active connections that can remain idle in the pool without extra ones being created, or enter zero to create none. |
testOnBorrow | The indication of whether objects will be validated before being borrowed from the pool. If the object fails to validate, it will be dropped from the pool, and another attempt will be made to borrow another. |
validationQuery | The SQL query that will be used to validate connections from this pool before returning them to the caller. |
validationInterval | The indication to avoid excess validation, and only run validation at the most, at this frequency (time in milliseconds). If a connection is due for validation but has been validated previously within this interval, it will not be validated again. |
defaultAutoCommit | This property is not applicable to the Carbon database in WSO2 products because auto committing is usually handled at the code level, i.e., the default auto commit configuration specified for the RDBMS driver will be effective instead of this property element. Typically, auto committing is enabled for RDBMS drivers by default. When auto committing is enabled, each SQL statement will be committed to the database as an individual transaction, as opposed to committing multiple statements as a single transaction. |
For more information on other parameters that can be defined in the <PRODUCT_HOME>/repository/conf/datasources/ master-datasources.xml file, see Tomcat JDBC Connection Pool.
Configuring new datasources to manage registry or user management data
Follow the steps below to configure new datasources to point to the new database(s) you create to manage registry and/or user management data separately.
Add a new datasource with similar configurations as the WSO2_CARBON_DB datasource above to the <
PRODUCT_HOME>/repository/conf/datasources/master-datasources.xmlfile. Change its elements with your custom values. For instructions, see Setting up datasource configurations.If you are setting up a separate database to store registry-related data, update the following configurations in the <
PRODUCT_HOME>/repository/conf/registry.xmlfile.<dbConfig name="wso2registry"> <dataSource>jdbc/MY_DATASOURCE_NAME</dataSource> </dbConfig>If you are setting up a separate database to store user management data, update the following configurations in the <
PRODUCT_HOME>/repository/conf/user-mgt.xmlfile.<Configuration> <Property name="dataSource">jdbc/MY_DATASOURCE_NAME</Property> </Configuration>
Creating database tables
To create the database tables, connect to the database that you created earlier and run the following scripts in the H2 shell or web console:
To create tables in the registry and user manager database (
WSO2CARBON_DB), use the below script:<PRODUCT_HOME>/dbscripts/h2.sql
Follow the steps below to run the script in Web console:
Run the
./h2.shcommand to start the Web console.Copy the script text from the SQL file.
Paste it into the console.
Click Run.
Restart the server.