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Migrating the Database Connector

This version of Mule reached its End of Life on May 2, 2023, when Extended Support ended.

Deployments of new applications to CloudHub that use this version of Mule are no longer allowed. Only in-place updates to applications are permitted.

MuleSoft recommends that you upgrade to the latest version of Mule 4 that is in Standard Support so that your applications run with the latest fixes and security enhancements.

The main changes to the Database connector from Mule 3 to Mule 4 include:

  • All database operations (such as Select, Insert, Update, Delete, and others) have been refactored into separate operations. There are also new, dedicated bulk operations for Mule 4.

  • Use of DataWeave: Database operations, such as Insert and Update, support DataWeave version 2 transformations. You can construct the data sets that insert or update the database without message side effects, and you no longer use message enrichers.

  • You can perform dynamic and static queries in similar ways.

  • The Mule streaming framework is automatically configured for your operations. You can execute a select statement and process the results asynchronously without worrying about leaking connections.

Database Connection Configurations

The Database connectors for Mule 3 and Mule 4 support Derby, MySQL, Oracle, and generic database configurations. For Mule 4, Microsoft SQL Server and Data Source Reference connections are also supported.

The XML for these connection configurations has changed in Mule 4:

  • Mule 3: Database elements such as <db:derby-config /> are the top-level elements.

  • Mule 4: <db:config /> is the top-level element for all database connection configurations in Mule 4, and specific database configurations are nested under separate <db:config /> elements:

    • Derby: <db:derby-connection />

    • Microsoft SQL Server: <db:mssql-connection />

    • MySQL: <db:my-sql-connection />

    • Oracle: <db:oracle-connection />

    • Generic: <db:generic-connection />

    • Data Source Reference Connection: <db:data-source-connection />

Mule 3 Example: Derby Connection Configuration
<db:derby-config name="DerbyConfig" url="derbydatabase.com/MydatabaseTest"/>

Notice that <db:derby-config /> in the Mule 3 example above changes to <db:config /> in the Mule 4 example below, and the attribute for the URL to the database changes from url to database in Mule 4. The <db:derby-connection /> child element is new in Mule 4.

Mule 4 Examples: Derby Connection Configuration
<db:config name="DerbyConfig">
  <db:derby-connection database="derbydatabase.com/MydatabaseTest" />
</db:config>

Also note that in Mule 4, additional <db:derby-connection /> settings (XML attributes) are available:

  • create="true|false": Whether to create the database if it does not exist.

  • subsubProtocol="directory": Type of SubsubProtocol to be used by Derby. The available options are directory, memory, classpath and jar.

The next section describes connection configurations for other databases.

Data Source Reference

These topics provide Mule 4 XML examples for other database connections and include connector-specific settings:

Note that the Mule 3 example for Derby in the previous section shows most of the main differences between Mule 3 and Mule 4 for database connection configurations, including My SQL, Oracle, and so on. It also shows the main migration pattern from Mule 3 to Mule 4 database connections:

Mule 4 Example: Data Source Reference

To use a Data Source Reference you need to:

1 - Create a XML Spring Beans file creating the Spring Bean representing the DataSource

datasource-spring-beans.xml
<?xml version="1.0" encoding="UTF-8"?>
<beans xmlns="http://www.springframework.org/schema/beans"
       xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance"
             xsi:schemaLocation="
               http://www.springframework.org/schema/beans http://www.springframework.org/schema/beans/spring-beans-current.xsd">

    <bean id="jdbcDataSource" class="org.enhydra.jdbc.standard.StandardDataSource" destroy-method="shutdown">
        <property name="driverName" value="org.apache.derby.jdbc.EmbeddedDriver"/>
        <property name="url" value="jdbc:derby:muleEmbeddedDB;create=true"/>
    </bean>

</beans>
Is required to configure the Maven dependency which contains the DataSource implementation. For this example, org.enhydra.jdbc.standard.StandardDataSource, the required dependency is:

<dependency>
<groupId>com.experlog</groupId>
<artifactId>xapool</artifactId>
<version>1.5.0</version>
</dependency>

2 - Create Data Source Connection

1 Import the datasource-spring-beans.xml file using the Mule Spring Module [link to Spring Module]
2 Create the DB Config with the DataSource Connection, and add as dataSourceRef the Spring Bean ID of the DataSource Bean created in datasource-spring-beans.xml.
<spring:config name="spring-beans" files="datasource-spring-beans.xml"/> (1)

<db:config name="db-datasource">
    <db:data-source-connection dataSourceRef="jdbcDataSource"> (2)
        <reconnection failsDeployment="true">
            <reconnect frequency="4000" count="4"/>
        </reconnection>
        <db:column-types>
            <db:column-type id="124"
                            typeName="column_type"
                            className="class_name"/>
        </db:column-types>
        <db:pooling-profile maxPoolSize="6" minPoolSize="1"
                            acquireIncrement="2" preparedStatementCacheSize="6"
                            maxWait="1" maxWaitUnit="MINUTES"/>
    </db:data-source-connection>
</db:config>

This setting is unique to Data Source Reference:

  • dataSourceRef="my_ref_here": Reference to a JDBC DataSource object. This object is typically created using Spring. When using XA transactions, an XADataSource object must be provided.

Mule 4 Example: Generic

<db:config name="generic_connection">
  <db:generic-connection url="url_here" driverClassName="driver_class_name_here"
    transactionIsolation="READ_COMMITTED" useXaTransactions="true"/>
</db:config>

These setting are unique to a Generic database:

  • url="url_here" for the JDBC URL to be used to connect to the database.

  • driverClassName="driver_class_name_here" for the fully-qualified name of the database driver class.

The Maven dependency which contains the Class referenced in the driverClassName parameter should be configured in the Mule Application.
Also, due to new Mule 4 ClassLoading mechanism, this dependency must be declared as a Shared Library to be exported to the DB Connector.

Mule 4 Example: Microsoft SQL Server

<db:config name="Microsoft_SQL_Server">
  <db:mssql-connection host="my_host" user="myuser" password="mypassword" databaseName="mydatabase" >
  </db:mssql-connection>
</db:config>

Mule 4 Example: MySQL

<db:config name="MySQL">
  <db:my-sql-connection host="myhost" user="myuser" password="mypassword" database="mydatabase" >
  </db:my-sql-connection>
</db:config>

Mule 4 Example: Oracle JDBC Database

<db:config name="Oracle_Connection">
  <db:oracle-connection host="myhost" user="myuser" password="mypassword" instance="myinstance" >
  </db:oracle-connection>
  <expiration-policy />
</db:config>

Example: Maven dependency setting for a Microsoft SQL Server driver

Microsoft SQL Server, MySQL, Derby, Oracle configurations require a driver.

<dependency>
  <groupId>com.microsoft.sqlserver</groupId>
  <artifactId>mssql-jdbc</artifactId>
  <version>6.2.2.jre8</version>
</dependency>
Because of the new Mule 4 ClassLoading mechanism, this dependency must be declared as a Shared Library to be exported to the DB Connector. Using Studio or Flow Designer, this will be automatically configured.

Examples: Detailed Connector Configurations

In Mule 4, you can add child elements for these settings under the database connection configurations (such as <db:mysql-config />):

Database Transactions

Transaction Isolation

Transactions are for the transaction isolation level to set on the driver when connecting the database.

  • NOT_CONFIGURED (Default)

  • READ_COMMITTED (transactionIsolation="READ_COMMITTED")

  • READ_UNCOMMITTED (transactionIsolation="READ_UNCOMMITTED")

  • REPEATABLE_READ (transactionIsolation="REPEATABLE_READ")

  • SERIALIZABLE (transactionIsolation="SERIALIZABLE")

Mule 3 Example: Transaction Isolation
<db:mysql-config name="db_config" host="0.0.0.0" port="3306" transactionIsolation="READ_COMMITTED"/>
Mule 4 Example: Transaction Isolation
<db:config name="db_config" >
  <db:my-sql-connection host="0.0.0.0" port="3306" transactionIsolation="READ_COMMITTED"/>
</db:config>
XA Transactions

Connections can be configured to work in XA Transactions, in both Mule 3 and Mule 4 this can be configured in the connection configuration setting useXaTransactions="true"

Mule 3 Example: XA Transactions
<db:mysql-config name="db_config" host="0.0.0.0" port="3306" useXaTransactions="true"/>
Mule 4 Example: XA Transactions
<db:config name="db_config" >
  <db:my-sql-connection host="0.0.0.0" port="3306" useXaTransactions="true"/>
</db:config>

Connection Properties

MySQL and Microsoft SQL Server database configurations provide connection property settings, these properties are injected to the JDBC Connection as additional properties.

Mule 3 Example: Connection Properties
<db:mysql-config name="db_config" host="0.0.0.0" port="3306" user="root" password="my-secret-pw">
    <db:connection-properties>
        <db:property key="userId" value="123123"/>
        <db:property key="permissions" value="SYS"/>
    </db:connection-properties>
</db:mysql-config>
Mule 4 Example: Connection Properties
<db:config name="db_config" >
  <db:my-sql-connection host="0.0.0.0" port="3306" user="root" password="my-secret-pw">
    <db:connection-properties >
      <db:connection-property key="userId" value="123123" />
      <db:connection-property key="permissions" value="SYS" />
    </db:connection-properties>
  </db:my-sql-connection>
</db:config>

Column Types

  • Column types (<db:column-types/>) for non-standard column types.

Pooling Profile

  • Pooling profile (<db:pooling-profile/>) for JDBC Data Sources capable of connection pooling connections. It is is almost identical to Connection Pooling in Mule 3.

Reconnection Strategies

Reconnection strategy settings are similar in Mule 3 and Mule 4. However, custom reconnection strategies are not available in Mule 4.

The examples below show changes to the XML for these settings:

  • None: Default. Same as Do Not Use A Reconnection Strategy in Mule 3.

  • Standard: Same as Standard Reconnection in Mule 3. Both have the same options: Frequency (ms), Reconnection Attempts

  • Forever: Same as Reconnect Forever in Mule 3.

    Mule 3 Examples: Reconnection Settings
    <db:mysql-config ...>
      <reconnect frequency="4000" count="4"/>`
    </db:mysql-config>
    
    <db:mysql-config ...>
      <reconnect-forever frequency="4000"/>`
    </db:mysql-config>
    Mule 4 Examples: Reconnection Settings
    <db:mssql-connection ...>
      <reconnection failsDeployment="true">
        <reconnect frequency="4000" count="4"/>
      </reconnection>
    </db:mssql-connection>
    
    <db:mssql-connection ...>
      <reconnection >
        <reconnect-forever frequency="4000" />
      </reconnection>
    </db:mssql-connection>

Database Connector Operations

Migrating Parameterized Queries

In Both Mule 3 and Mule 4 input parameters are supplied as key-value pairs. Those keys are used with the semicolon character (:) to reference a parameter value by name, this means that written SQL parameterized queries in Mule 3 doesn’t need changes to be used in Mule 4. This approach is recommended to avoid SQL injection attacks, and it allows the connector to perform optimizations that improve the overall performance of the Mule app.

Input Parameters

  • In Mule 3 each Input Parameter was defined as a <db:in-param/> element inside the <db:select/> operation which had an name attribute for the parameter name, and a value attribute which holds the parameter value.

  • In Mule 4, the input parameters are defined as Map <db:input-parameters>, where the key is the name of the parameter, and the value as the parameter value. This map can only be created using DataWeave.

Mule 3 Example: Parameterized SELECT Query
<db:select config-ref="databaseConfig">
    <db:parameterized-query>
       SELECT * FROM employees WHERE last_name = :last_name
    </db:parameterized-query>
    <db:in-param name="last_name" value="#[flowVars.lastName]"/>
</db:select>
Mule 4 Example: Parameterized SELECT Query
<db:select config-ref="databaseConfig">
  <db:sql>
    SELECT * FROM employees WHERE last_name = :last_name
  </db:sql>
  <db:input-parameters>
    #[
      {
        last_name : vars.lastName
      }
    ]
  </db:input-parameters>
</db:select>

Migrating Dynamic Queries

Sometimes, you not only need to parameterize the WHERE clause, but also parameterize parts of the query itself. Example use cases for this would be queries which need to hit online/historic tables depending on a condition, or complex queries where the project columns need to vary.

In Mule 3, the concept of select was split in parameterized and dynamic queries, and you couldn’t use both at the same time. You had to choose between having a dynamic query or having the advantages of using parameters (SQL Injection protection, PreparedStatement optimization, etc.). Furthermore, the syntax to do one or the other was different, so you had to learn two different ways of doing the same thing.

But with the new Database Connector in Mule 4, you can now use both methods at the same time by using expressions in the query:

Mule 3 Example: Dynamic SELECT Query
<db:select config-ref="databaseConfig">
  <db:dynamic-query>
    SELECT * FROM #[flowVars.table] WHERE name = #[flowVars.name]
  </db:dynamic-query>
</db:select>
Mule 4 Example: Dynamic SELECT Query
<db:select config-ref="databaseConfig">
  <db:sql>
    #['SELECT * FROM $(vars.table) WHERE name = $(vars.name)']
  </db:sql>
</db:select>

GOTCHA: The Mule 3 example is less performant and vulnerable to SQL Injection attacks since the entire query is being treated as a string instead of using PreparedStatements

Streaming Large Results

Streaming can handle results queries to big database tables, which might return tens of thousands of records, especially for integration use cases. Streaming is a great solution for this.

Enabling Streaming

In Mule 3, streaming is disabled by default, so you have to enable it to use it.

In Mule 4, streaming is always on but you can configure the strategy through which the runtime will achieve repeatable streaming. For more information on this, please refer to the streaming documentation page.

TIP: Note that disabling repeatable streaming will prevent DataWeave and other components to process the a stream many times, even in parallel.

Migrating Bulk Operations

Enabling Bulk Mode

In Mule 3, you set bulk functionality through a bulkMode="true" setting on Insert, Update, and Delete operations.

In Mule 4, you use dedicated Bulk Insert (<db:bulk-insert>), Bulk Update (<db:bulk-update>), and Bulk Delete (<db:bulk-delete>) database, instead. This means that operations no longer change their behavior depending on the received payload.

Consuming bulk data

In Mule 3, in a bulk query, the connector worked similar to the <for-each/> component, it took the current payload value, expecting to be a collection of items, and executes the <db:in-param /> expressions with each value of the collection.

In Mule 4, is slightly different, instead of consuming the payload and executing expressions for each element in a collection, is required to inject a collection of entries.

Examples:
Mule 3 Example: Select with a Parameterized Query
<db:insert config-ref="db_config" bulkMode="true">
    <db:parameterized-query>
      INSERT INTO customers (id, name, lastName)
      VALUES (:id, :name, :lastName)
    </db:parameterized-query>
    <db:in-param name="id" value="#[payload.id]"/>
    <db:in-param name="name" value="#[payload.name]"/>
    <db:in-param name="lastName" value="#[payload.lastName]"/>
</db:insert>
Mule 4 Example: Using the Bulk Operation to Get Different Values
<db:bulk-insert config-ref="db_config" >
  <db:sql>
    INSERT INTO customers (id, name, lastName)
    VALUES (:id, :name, :lastName)
  </db:sql>
  <db:bulk-input-parameters>
  #[[{
      id: 2,
      name: 'George',
      lastName: 'Costanza'
    },
    {
      id: 3,
      name: 'Cosmo',
      lastName: 'Kramer'
    }]]
  </db:bulk-input-parameters>
</db:bulk-insert>

Migrating the Bulk Execute Operation

The <db:bulk-execute> operation from the Mule 3 connector is replaced by the <db:execute-script> operation.

It’s important to note that even though the Mule 3 version uses the word bulk, it is not an actual bulk operation as in the examples above. Instead, it executes many individual statements using the same connection, but it does not create bulk prepared statements. So, in Mule 4, the operation is named execute-script to better describe what it is doing.

Mule 4 Example: Using the execute-script operation
<db:execute-script config-ref="dbConfig">
    <db:sql>
        update PLANET set NAME='Mercury' where POSITION=0;
        update PLANET set NAME='Mercury' where POSITION=4
    </db:sql>
</db:execute-script>

You can also extract the statements to an external file:

Mule 4 Example: Using the execute-script operation with an external file
<db:execute-script config-ref="dbConfig" file="bulk-script.sql" />

Transactional Actions

When database operations are executed inside a transaction, they can determine how to interact with the transaction.

Available Transactional Actions:

  • ALWAYS_JOIN

  • JOIN_IF_POSSIBLE

  • NOT_SUPPORTED

Mule 3 Example: Transactional Action
<db:select config-ref="db_config" transactionalAction="ALWAYS_JOIN">
   <db:parameterized-query>
     SELECT * FROM people
   </db:parameterized-query>
</db:select>
Mule 4 Example: Transactional Action
<db:select config-ref="db_config" transactionalAction="ALWAYS_JOIN">
  <db:sql>
    SELECT * FROM people
  </db:sql>
</db:select>

Output Target

In Mule 3 the DB Connector had the capability of save the execution output in a desired target variable. In Mule 4, this can still be done, but with a few differences.

In Mule 3 what was considered as output was just the execution result, so when configuring, for example: target="#[flowVars.targetVar]" this meant that the query execution will be saved in the flow variable targetVar.

In Mule 4 is very similar, you have a target parameter which is the name of the target Flow Variable, this can’t be an expression, and the new parameter in Mule 4 is targetValue, this is an expression that is evaluated against the operation result. For example this can be: #[payload], to save the entire payload, or #[payload[0]] to just save the first row of a Select Query.

Mule 3 Example: Output Target
<db:select config-ref="db_config" target="#[flowVars.targetVar]">
    <db:parameterized-query>
      SELECT * FROM People
    </db:parameterized-query>
</db:select>
Mule 4 Example: Output Target
<db:select config-ref="db_config" target="targetVar" targetValue="#[payload]">
  <db:sql>
    SELECT * from People
  </db:sql>
</db:select>

To use the Database connector, simply add it to your application using the Studio palette or add the following dependency in your pom.xml file:

<dependency>
    <groupId>org.mule.connectors</groupId>
    <artifactId>mule-db-connector</artifactId>
    <version>1.2.0</version> <!-- or newer -->
    <classifier>mule-plugin</classifier>
</dependency>