The jdbc component enables you to access databases through JDBC, where SQL queries (SELECT) and operations (INSERT, UPDATE, etc) are sent in the message body. This component uses the standard JDBC API, unlike the SQL Component component, which uses spring-jdbc.
Maven users will need to add the following dependency to their
pom.xml for this component:
This component can only be used to define producer endpoints, which means that you cannot use the JDBC component in a
This component only supports producer endpoints.
You can append query options to the URI in the following format,
The default maximum number of rows that can be read by a polling query. The default value is 0.
Camel 2.1: Sets additional options on the
java.sql.Statement that is used behind the scenes to execute the queries. For instance,
statement.maxRows=10. For detailed documentation, see the
java.sql.Statement javadoc documentation.
Camel 2.2: Sets whether to use JDBC 4/3 column label/name semantics. You can use this option to turn it
false in case you have issues with your JDBC driver to select data. This only applies when using
SQL SELECT using aliases (e.g.
SQL SELECT id as identifier, name as given_name from persons).
Camel 2.9: Camel will set the autoCommit on the JDBC connection to be false, commit the change after executed the statement and reset the autoCommit flag of the connection at the end, if the resetAutoCommit is true. If the JDBC connection doesn't support to reset the autoCommit flag, you can set the resetAutoCommit flag to be false, and Camel will not try to reset the autoCommit flag.
When used with XA transactions you most likely need to set it to false so that the transaction manager is in charge of committing this tx.
Camel 2.12: Whether to allow using named parameters in the queries.
Camel 2.12: Allows to plugin to use a custom
org.apache.camel.component.jdbc.JdbcPrepareStatementStrategy to control preparation of the query and prepared statement.
Camel 2.12: Set this option to
true to use the
prepareStatementStrategy with named parameters. This allows to define queries with named placeholders, and use headers with the dynamic values for the query placeholders.
Camel 2.12.1: Make the output of the producer to SelectList as List of Map, or SelectOne as single Java object in the following way:
a) If the query has only single column, then that JDBC Column object is returned. (such as SELECT COUNT( * ) FROM PROJECT will return a Long object.
b) If the query has more than one column, then it will return a Map of that result.
c) If the outputClass is set, then it will convert the query result into an Java bean object by calling all the setters that match the column names. It will assume your class has a default constructor to create instance with. From Camel 2.14 onwards then SelectList is also supported.
d) If the query resulted in more than one rows, it throws an non-unique result exception.
Camel 2.14.0: New
StreamList output type value that streams the result of the query using an
Iterator<Map<String, Object>>, it can be used along with the Splitter EIP.
Camel 2.12.1: Specify the full package and class name to use as conversion when outputType=SelectOne. From Camel 2.14 onwards then SelectList is also supported.
Camel 2.12.1: To use a custom
org.apache.camel.component.jdbc.BeanRowMapper when using
outputClass. The default implementation will lower case the row names and skip underscores, and dashes. For example
"CUST_ID" is mapped as
By default the result is returned in the OUT body as an
ArrayList<HashMap<String, Object>>. The
List object contains the list of rows and the
Map objects contain each row with the
String key as the column name. You can use the option
outputType to control the result.
Note: This component fetches
ResultSetMetaData to be able to return the column name as the key in the
If the query is a
SELECT, query the row count is returned in this OUT header.
If the query is an
UPDATE, query the update count is returned in this OUT header.
Camel 2.10: Rows that contains the generated kets.
Camel 2.10: The number of rows in the header that contains generated keys.
Camel 2.11.1: The column names from the ResultSet as a
Camel 2.12: A
java.util.Map which has the headers to be used if
useHeadersAsParameters has been enabled.
Available as of Camel 2.10
If you insert data using SQL INSERT, then the RDBMS may support auto generated keys. You can instruct the JDBC producer to return the generated keys in headers.
To do that set the header
CamelRetrieveGeneratedKeys=true. Then the generated keys will be provided as headers with the keys listed in the table above.
You can see more details in this unit test.
Using generated keys does not work with together with named parameters.
Using named parameters
Available as of Camel 2.12
In the given route below, we want to get all the projects from the projects table. Notice the SQL query has 2 named parameters, :?lic and :?min.
Camel will then lookup these parameters from the message headers. Notice in the example above we set two headers with constant value
for the named parameters:
You can also store the header values in a
java.util.Map and store the map on the headers with the key
In the following example, we fetch the rows from the customer table.
First we register our datasource in the Camel registry as
Then we configure a route that routes to the JDBC component, so the SQL will be executed. Note how we refer to the
testdb datasource that was bound in the previous step:
Or you can create a
DataSource in Spring like this:
We create an endpoint, add the SQL query to the body of the IN message, and then send the exchange. The result of the query is returned in the OUT body:
If you want to work on the rows one by one instead of the entire ResultSet at once you need to use the Splitter EIP such as:
In Camel 2.13.x or older
In Camel 2.14.x or newer
Sample - Polling the database every minute
If we want to poll a database using the JDBC component, we need to combine it with a polling scheduler such as the Timer or Quartz etc. In the following example, we retrieve data from the database every 60 seconds:
Sample - Move Data Between Data Sources
A common use case is to query for data, process it and move it to another data source (ETL operations). In the following example, we retrieve new customer records from the source table every hour, filter/transform them and move them to a destination table: