hotrod-endpoint: Use JDG remotely through Hotrod
Author: Tristan Tarrant, Martin Gencur Level: Intermediate Technologies: Infinispan, Hot Rod Summary: Demonstrates how to use Infinispan remotely using the Hot Rod protocol. Target Product: JDG Product Versions: JDG 6.x Source: https://github.com/infinispan/jdg-quickstart
What is it?
Hot Rod is a binary TCP client-server protocol used in JBoss Data Grid. The Hot Rod protocol facilitates faster client and server interactions in comparison to other text based protocols and allows clients to make decisions about load balancing, failover and data location operations.
This quickstart demonstrates how to connect remotely to JBoss Data Grid (JDG) to store, retrieve, and remove data from cache using the Hot Rod protocol. It is a simple Football Manager console application allows you to add and remove teams, add players to or remove players from teams, or print a list of the current teams and players using the Hot Rod based connector.
All you need to build this project is Java 6.0 (Java SDK 1.6) or better, Maven 3.0 or better.
The application this project produces is designed to be run on JBoss Data Grid 6.x
If you have not yet done so, you must Configure Maven before testing the quickstarts.
Obtain JDG server distribution on Red Hat's Customer Portal at https://access.redhat.com/jbossnetwork/restricted/listSoftware.html
Install a JDBC driver into JDG (since JDG includes H2 by default, this step may be skipped for the scope of this example). More information can be found in the DataSource Management chapter of the Administration and Configuration Guide for JBoss Enterprise Application Platform on the Customer Portal at https://access.redhat.com/site/documentation/JBoss_Enterprise_Application_Platform/ . NOTE: JDG does not support deploying applications so one cannot install it as a deployment.
This Quickstart uses JDBC to store the cache. To permit this, it's necessary to alter JDG configuration file (
JDG_HOME/standalone/configuration/standalone.xml) to contain the following definitions:
Datasource subsystem definition:
<subsystem xmlns="urn:jboss:domain:datasources:2.0"> <!-- Define this Datasource with jndi name java:jboss/datasources/ExampleDS --> <datasources> <datasource jndi-name="java:jboss/datasources/ExampleDS" pool-name="ExampleDS" enabled="true" use-java-context="true"> <!-- The connection URL uses H2 Database Engine with in-memory database called test --> <connection-url>jdbc:h2:mem:test;DB_CLOSE_DELAY=-1</connection-url> <!-- JDBC driver name --> <driver>h2</driver> <!-- Credentials --> <security> <user-name>sa</user-name> <password>sa</password> </security> </datasource> <!-- Define the JDBC driver called 'h2' --> <drivers> <driver name="h2" module="com.h2database.h2"> <xa-datasource-class>org.h2.jdbcx.JdbcDataSource</xa-datasource-class> </driver> </drivers> </datasources> </subsystem>
Infinispan subsystem definition:
<subsystem xmlns="urn:infinispan:server:core:7.0" default-cache-container="local"> <cache-container name="local" default-cache="default"> <local-cache name="default" start="EAGER"> <locking acquire-timeout="30000" concurrency-level="1000" striping="false"/> </local-cache> <local-cache name="memcachedCache" start="EAGER"> <locking acquire-timeout="30000" concurrency-level="1000" striping="false"/> </local-cache> <local-cache name="namedCache" start="EAGER"/> <!-- ADD a local cache called 'teams' --> <local-cache name="teams" start="EAGER" batching="false"> <!-- Define the locking isolation of this cache --> <locking acquire-timeout="20000" concurrency-level="500" striping="false" /> <!-- Define the JdbcBinaryCacheStores to point to the ExampleDS previously defined --> <string-keyed-jdbc-store datasource="java:jboss/datasources/ExampleDS" passivation="false" preload="false" purge="false"> <!-- specifies information about database table/column names and data types --> <string-keyed-table prefix="JDG"> <id-column name="id" type="VARCHAR"/> <data-column name="datum" type="BINARY"/> <timestamp-column name="version" type="BIGINT"/> </string-keyed-table> </string-keyed-jdbc-store> </local-cache> <!-- End of local cache called 'teams' definition --> </cache-container> </subsystem>
- Open a command line and navigate to the root of the JDG directory.
The following shows the command line to start the server with the web profile:
For Linux: $JDG_HOME/bin/standalone.sh For Windows: %JDG_HOME%\bin\standalone.bat
Build and Run the Quickstart
NOTE: The following build command assumes you have configured your Maven user settings. If you have not, you must include Maven setting arguments on the command line. See Build and Deploy the Quickstarts for complete instructions and additional options.
- Make sure you have started the JDG as described above.
- Open a command line and navigate to the root directory of this quickstart.
Type this command to build and deploy the archive:
mvn clean package
This will create a file at
Run the example application in its directory:
Using the application
Basic usage scenarios can look like this (keyboard shortcuts will be shown to you upon start):
at - add a team ap - add a player to a team rt - remove a team rp - remove a player from a team p - print all teams and players q - quit
q one more time to exit the application.
Run application with different classpath
It's possible to run this quickstart with different classpath (other than default created by mvn exec:java). To do this, compile quickstart with:
mvn clean package -Pcustom-classpath -Dclasspath=/custom/classpath/directory
This will create a file at
Then you can run it with:
java -jar target/jboss-hotrod-endpoint-quickstart.jar
Debug the Application
If you want to debug the source code or look at the Javadocs of any library in the project, run either of the following commands to pull them into your local repository. The IDE should then detect them.
mvn dependency:sources mvn dependency:resolve -Dclassifier=javadoc