October 31, 2007 11 Comments

Java + Flex = Cool application and reliable back end!

Probably you have already heard about Adobe Flex.
Flex is a SDK to develop Rich Internet Applications that will run within the Flash Player, and Flash Player is present in almost all browser and all desktop platforms today.
Flex applications generate an SWF file and this file will communicate with a back end server, this backend server can be a Flash Lifecycle Server, but you can use java and open source for it too.

This two/tree examples work without any paid software, you will need only:
Flex SDK - that is free, and the version 3 will be open source.
A servlet container - I’m using Tomcat
– For the first example that is all
And for the other two examples you’ll need to download
OpenAMF - A flex remoting implementation in Java
RemoteObjectAMF0 - an implementation of the RemoteObject tag that supports the version 0 of AMF protocol (OpenAMF does not supports the version 3 yet)

So, lets start, create a java web project with your favorite IDE, and create a Servlet named TestServlet, I’ll use jaxb to render XML from the servlet, but you can use anything else, if you want to use jaxb too, the schema I created for this example is the following:

<?xml version="1.0" encoding="UTF-8"?>
<schema xmlns="http://www.w3.org/2001/XMLSchema" targetNamespace="http://www.example.com/example" xmlns:tns="http://www.example.com/example" elementFormDefault="qualified">
    <element name="TestSVo" type="tns:TestList"></element>
        <complexType name="TestSVoType">
    	<attribute name="id" type="int"></attribute>
    	<attribute name="name" type="string"></attribute>
    	<attribute name="other" type="string"></attribute>
    </complexType>
    <complexType name="TestList">
    	<sequence minOccurs="1" maxOccurs="unbounded">
    		<element name="all" type="tns:TestSVoType"></element>
    	</sequence>
    </complexType>
</schema>

This schema is for a XML like the following:

<TestSVo>
<all id="0" name="foo" other="bar"/>
<all id="1" name="foo1" other="bar1"/>
...
</TestSVo>

Generate the stubs for the XML generation using JaxB or use any other tool to generate a XML with this schema.

Like any other Java application, I’ll start with my web.xml

<?xml version="1.0" encoding="UTF-8"?>
<web-app version="2.5" xmlns="http://java.sun.com/xml/ns/javaee"
	xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance"
	xsi:schemaLocation="http://java.sun.com/xml/ns/javaee http://java.sun.com/xml/ns/javaee/web-app_2_5.xsd ">
	<servlet>
		<servlet-name>testServlet</servlet-name>
		<servlet-class>....servlet.TestServlet</servlet-class>
	</servlet>
	<servlet>
		<servlet-name>AdvancedGateway</servlet-name>
		<servlet-class>org.openamf.AdvancedGateway</servlet-class>
		<init-param>
			<description>
				Location of the OpenAMF config file.
			</description>
			<param-name>OPENAMF_CONFIG</param-name>
			<param-value>/WEB-INF/openamf-config.xml</param-value>
		</init-param>
		<load-on-startup>1</load-on-startup>
	</servlet>
	<servlet-mapping>
		<servlet-name>AdvancedGateway</servlet-name>
		<url-pattern>/gateway2</url-pattern>
	</servlet-mapping>
	<servlet-mapping>
		<servlet-name>testServlet</servlet-name>
		<url-pattern>/TestServlet</url-pattern>
	</servlet-mapping>
	<session-config>
		<session-timeout>30</session-timeout>
	</session-config>
	<welcome-file-list>
		<welcome-file>teste.html</welcome-file>
	</welcome-file-list>
</web-app>

for the first example, the only needed servlet is the test servlet, for the other examples the AdvancedGateway servlet is used …

Now write the following code in the servlet:

import java.io.IOException;
 
import javax.servlet.ServletException;
import javax.servlet.http.HttpServletRequest;
import javax.servlet.http.HttpServletResponse;
import javax.xml.bind.JAXBContext;
import javax.xml.bind.JAXBElement;
import javax.xml.bind.JAXBException;
import javax.xml.bind.Marshaller;
import javax.xml.bind.Unmarshaller;
 
/**
 * Servlet implementation class for Servlet: TestServlet
 * 
 */
public class TestServlet extends javax.servlet.http.HttpServlet implements javax.servlet.Servlet
{
	static final long serialVersionUID = 1L;
	private JAXBContext jc;
	private Marshaller marc;
	private Unmarshaller unmarc;
	private ObjectFactory factory;
 
	public TestServlet()
	{
		super();
		factory = new ObjectFactory();
		try {
			jc = JAXBContext.newInstance("....servlet");
			marc = jc.createMarshaller();
			unmarc = jc.createUnmarshaller();
		} catch (JAXBException e) {
			e.printStackTrace();
		}
 
	}
 
	protected void doGet(HttpServletRequest request, HttpServletResponse response) throws ServletException, IOException
	{
		float v = Float.parseFloat(request.getParameter("v"));
		float v1 = Float.parseFloat(request.getParameter("v1"));
		response.getWriter().print(v * v1);
	}
 
	protected void doPost(HttpServletRequest request, HttpServletResponse response) throws ServletException,
		IOException
	{
		System.out.println("List called");
		TestList res = new TestList();
		for(int i=0;i<40;i++){
			res.getAll().add(new TestSVoType(i,"Téste ã " + i));
		}
		JAXBElement<TestList> elem = factory.createTestSVo(res);
		System.out.println(elem.toString());
		try {
			marc.marshal(elem, response.getWriter());
		} catch (JAXBException e) {
			// TODO Auto-generated catch block
			e.printStackTrace();
		}
	}
}

the doGet method of this servlet is a calculator, it just multiply the two parameters and prints out the result.
The doPost prints a XML like the one above, automatically generated using the JAXB API.

Now the flex part:
Create a file named xmltest.mxml in the home folder of your webapp with the following content.

<?xml version="1.0" encoding="utf-8"?>
<mx:Application xmlns:mx="http://www.adobe.com/2006/mxml"
	 layout="vertical"	backgroundColor="#F4F4F4">
	 <mx:HTTPService id="calc" method="GET" url="http://localhost:8080/teste/TestServlet" >
	 </mx:HTTPService>
	 <mx:HTTPService id="list" method="POST" url="http://localhost:8080/teste/TestServlet" >
	 </mx:HTTPService>
	<mx:Script>
		<![CDATA[
			import mx.controls.DataGrid;
            import mx.controls.Alert;
        ]]>
	</mx:Script>
	<mx:Panel width="80%" height="531" title="Teste">
		<mx:Label width="100%" color="blue"
			text="Type two numbers and press calculate." />
		<mx:TextInput id="v1" text="3" />
		<mx:TextInput id="v2" text="5" />
		<mx:Label id="lbl"  text="{calc.lastResult}"/>
		<mx:Button label="Calculate" click="calc.send({v:v1.text,v1:v2.text});" />
		<mx:DataGrid dataProvider="{list.lastResult.TestSVo.all}" width="100%" height="195" change="Alert.show(DataGrid(event.currentTarget).selectedItem.other)">
			<mx:columns>
				<mx:DataGridColumn headerText="Id" dataField="id" />
				<mx:DataGridColumn headerText="Nome" dataField="name" />
			</mx:columns>
		</mx:DataGrid>
		<mx:Button label="List" click="list.send({v:v1.text,v1:v2.text})" />
	</mx:Panel>
</mx:Application>

The interface with the java code is in the two mx:HTTPService lines, the first one invokes the URL with a GET request, calling the calculator method
Then the first button (Calculate) is activated, the fist service is called [calc.send(parameters)] and the text on the first label will be updated because of the value binding on the last result …
When the seccond button (List) fires a post [list.send(params)] and the data grid will process the returned XML and display the lines …
That is all!
Gotcha: if you call list.send without parameters the HTTPService tag fires a GET method, this is the reason for the unused parameters there, at least with Flex 2 this happened every time

This aproach is very simple and does not need much code from any side, but it does not looks like OOP very much …

And flex has a great remoting support, so what do you think agout creating a POJO in Java and use it as a “remote object” from your flex code?
Like the idea?
So let’s create the TestService bellow with the same two operations (calc and list)

import java.util.ArrayList;
import java.util.List;
 
public class TestService
{
	public float calc(float v, float v1){
		System.out.format("%f X %f\n", v, v1);
		return v * v1;
	}
 
	public List<TestVo> list(){
		System.out.println("List called");
		ArrayList<TestVo> res = new ArrayList<TestVo>();
		for(int i=0;i<40;i++){
			res.add(new TestVo(i,"Testé  ã " + i));
		}
		return res;
	}
}

And now, we do not need all that XML stuf, a plain old VO will do the JOB …

public class TestVo
{
	private String name;
	private int id;
	public TestVo(int id, String name)
	{
		this.id = id;
		this.name = name;
	}
	public String getName()
	{
		return name;
	}
	public int getId()
	{
		return id;
	}
	public void setName(String name)
	{
		this.name = name;
	}
	public void setId(int id)
	{
		this.id = id;
	}
}

To use this service from Flash, we need to configure the OpenAMF framework using the file WEB-INF/openamf-config.xml, the name and location of this file was configured as a parameter to the AdvancedGateway in web.xml file …

<?xml version="1.0" encoding="UTF-8"?>
<config>
	<amf-serializer>
			<force-lower-case-keys>false</force-lower-case-keys>
	</amf-serializer>
	<invoker>
		<name>Java</name>
		<class>org.openamf.invoker.JavaServiceInvoker</class>
	</invoker>
	<custom-class-mapping>
		<java-class>....TestVo</java-class>
		<custom-class>TestVo</custom-class>
	</custom-class-mapping>
	<service>
		<name>TestService</name>
		<service-location>....TestService</service-location>
		<invoker-ref>Java</invoker-ref>
		<method>
			<name>calc</name>
			<parameter>
				<type>*</type>
			</parameter>
		</method>
		<method>
			<name>list</name>
			<parameter>
				<type>*</type>
			</parameter>
		</method>
	</service>
</config>

I have removed almost all the code from this file
There is the Serializer/Deserializer configured, the only registered invoker is the Java invoker, there is one custom-class-mapping for the VO and a Service definition for the service.
If you do not want to declare all methods for each service, you can use * as the name, and it will match any method …
The OpenAMF frameworks has many more configuration options, you can call EJBs, WebServices, any java class, JMX beans and Spring Beans from your flex code without any problem …

We can not use the standard mx:RemoteObject to call this service, because OpenAMF does not support AMF3, only AMF0 and I do not know how to configure the AMF protocol version for the mx:RemoteObject tag …
So the first example, uses only a NetConnection instance:

<?xml version="1.0" encoding="utf-8"?>
<mx:Application xmlns:mx="http://www.adobe.com/2006/mxml"
	layout="vertical"
	backgroundColor="#F4F4F4"
	initialize="init()">
	<mx:Script>
		<![CDATA[
            import mx.controls.Alert;
            import mx.rpc.events.ResultEvent;
            import mx.collections.ArrayCollection;   
            [Bindable]
            public var lista:ArrayCollection; 
            public var nc : NetConnection;
 
            function init() : void{
            	nc = new NetConnection();
            	nc.objectEncoding = ObjectEncoding.AMF3;
            	nc.addEventListener(NetStatusEvent.NET_STATUS,netStatus);
            	nc.connect("http://localhost:8080/teste/gateway2");
            }
            function netStatus(event : NetStatusEvent) : void {
            	Alert.show(event.info.code);
            }
            function onRetornaLista(event):void{
            	var e : Array = event;
            	lista = new ArrayCollection(e);
            }       
            function onRetornaCalc(event):void{
            	lbl.text = String(event);
            }
            function calc(v1 : Number, v2 : Number) : void {
            	var r : Responder = new Responder(onRetornaCalc);
            	nc.call("TestService.calc",r,v1,v2);
            }
            function list() : void{
            	var r : Responder = new Responder(onRetornaLista);
            	nc.call("TestService.list",r);
            }
 
        ]]>
	</mx:Script>
	<mx:Panel width="80%" height="531" title="Teste">
		<mx:Label width="100%" color="blue"
			text="Type two numbers and press calculate." />
		<mx:TextInput id="v1" text="3" />
		<mx:TextInput id="v2" text="5" />
		<mx:Label id="lbl"  />
		<mx:Button label="Calculate" click="calc(Number(v1.text),Number(v2.text))" />
		<mx:DataGrid dataProvider="{lista}" width="100%" height="195">
			<mx:columns>
				<mx:DataGridColumn headerText="Id" dataField="id" />
				<mx:DataGridColumn headerText="Nome" dataField="name" />
			</mx:columns>
		</mx:DataGrid>
		<mx:Button label="List" click="list()" />
	</mx:Panel>
</mx:Application>

the init method just initialized the NetConnection object (nc).
When the first button is called (Calculate) the calc method is called, in this method we call the TestService.calc method in the server, using the NetConnection object.

The new thing here is that we need the Responders to process the result from the server call …
I think this approach is better than the last one, but still not looking very good for me.

So I looked a little around and found the RemoteObjectAMF0 library …
It is a little ActionScript library, that enables you to use tags to call your service from flex using the AMF0 protocol like this:

<?xml version="1.0" encoding="utf-8"?>
<mx:Application xmlns:mx="http://www.adobe.com/2006/mxml"
	xmlns:renaun="com.renaun.rpc.*" layout="vertical"
	backgroundColor="#F4F4F4">
	<mx:Script>
		<![CDATA[
            import mx.controls.Alert;
            import mx.rpc.events.ResultEvent;
            import mx.collections.ArrayCollection;   
            [Bindable]
            public var lista:ArrayCollection; 
 
            NetConnection.defaultObjectEncoding = ObjectEncoding.AMF0;
 
            function onRetornaLista(event:ResultEvent):void{
            	lista = ArrayCollection(event.result);
            }       
            function onRetornaCalc(event:ResultEvent):void{
            	lbl.text = String(event.result);
            }
        ]]>
	</mx:Script>
	<renaun:RemoteObjectAMF0
		endpoint="http://localhost:8080/teste/gateway2" id="TST"
		source="....TestService" showBusyCursor="true"
		makeObjectsBindable="true"
		fault="Alert.show(String(event.fault)), 'Error'">
		<renaun:methods>
			<renaun:method name="list" result="onRetornaLista(event)"></renaun:method>
			<renaun:method name="calc" result="onRetornaCalc(event)"></renaun:method>
		</renaun:methods>
	</renaun:RemoteObjectAMF0>
	<mx:Panel width="80%" height="531" title="Teste">
		<mx:Label width="100%" color="blue"
			text="Type two numbers and press calculate." />
		<mx:TextInput id="v1" text="3" />
		<mx:TextInput id="v2" text="5" />
		<mx:Label id="lbl"  />
		<mx:Button label="Calculate" click="TST.calc(Number(v1.text),Number(v2.text))" />
		<mx:DataGrid dataProvider="{lista}" width="100%" height="195">
			<mx:columns>
				<mx:DataGridColumn headerText="Id" dataField="id" />
				<mx:DataGridColumn headerText="Nome" dataField="name" />
			</mx:columns>
		</mx:DataGrid>
		<mx:Button label="List" click="TST.list()" />
	</mx:Panel>
</mx:Application>

Still not perfect, since I did not liked the idea of using the full file name to call a service, I think my final solution will be to create an dynamic proxy for the services, but this last one looks good enought for me

I hope this post helps some one, I spend two days looking for solutions for this problem, because the current project does not have enought cash for a Life Cycle Server license …

PS.: to compile the mxml files you can use the mxmlc command from the free flex SDK
PS2.: you need to fix the URLs to the full path for your context, and your flex app must be downloaded from the same domain
PS3.: the é and ã letters are not encoding problems, I put it there to test if there would be any encoding problems and there were none

If you enjoyed this post, make sure you subscribe to my RSS feed!

October 17, 2007 2 Comments

Synchronous continuous integration with Rails/Rake

Versão em portugues aqui

I think that everyone agrees that continuous integrationis a need for any and every software project, but the asynchronous integration largely used has some problems, like:

The code is commited even if the developer forgot to run the unit tests
The tests are executed after a while on the integration server, only after that the team will know if the tests passed or not
The developer is probably working on something else when he/she get the message telling that a problem ocurred with the build, and needs to stop what he/she is doing now to correct the error, or let the error on the repository for a while probably breaking the updates for other developers

I’m not telling that you should no have a build server, you will have a build server to enable every involved on the project to get the latest version of the application, and to generate reports about the source code, these reports usually take a long time to generate and you there is no need for the developer to wait this generation to start the next task, but I do not think that the integration of the developers work are the responsibility of this server.

In other words, you do no need an integration server, just a build server if you are using synchronous integration!

The ideal is that during the commit process, the developer update his source code to the latest version, then run all tests and only if all tests passes he can commit the code to the repository.

Of course you can improve this process adding some restrictions, for example a minimum test coverage, but in my case, I wrote this Rake taks for a project where I’m working alone, and I’m using GIT for version control (I’ll write a post about GIT this week if I have the time), I’m using synchronous integration in some Java projects too, in other opportunity I’ll write about this process in java projects.

I’m adopting this synchronous integration practice for all new projects in my company and in every client that likes the idea.

Back to this post subject, it is really easy to implement synchronous integration in a Rails project, you just need to follow this two steps:

1 - create a ‘git.rake’ file in the directory lib/tasks with the following content:

namespace :git do
  desc "Update every thing before the tests"
  task :update do
    puts "Lets update it all, but we are using GIT so we already have the latest source for this repo"
  end
  desc "Run all tests, if all are OK, then commit every thing to the git local repository"
  task :commit => [:update, :test] do
    puts "No test failures, now we can commit it all"
    exec 'git commit -a'
  end
end

As you can see, this Rake task is very simple, and I’m sure it will improve a lot your projects quality.

2 - at the and of each task, instead of running “git commit -a”, run the command: “rake git:update”

That is it! using that you are now using synchronous integration

Of course this Rake task can be improved, you can configure it to pull from a central repository, or update your source code if you are using subversion for example, but I think this one is already a good start point.

It all tests are OK, GIT will open VIM for the developer to write the commit message, and after that, the code will be committed with every thing working, and good bye integration problems!

And you, what do you think about synchronous versus asynchronous continuous integration? what approach do you think is best? why?

If you enjoyed this post, make sure you subscribe to my RSS feed!

Java + Flex = Cool application and reliable back end!

Synchronous continuous integration with Rails/Rake

RSS Feeds

Recommend this blog

License

Tags

Cool Software

Time machine

Recent Posts

Blogroll