Apache Struts - 1.5

Extension ID

com.castsoftware.struts

What’s new?

Please see Apache Struts - 1.5 - Release Notes for more information.

Description

This extension provides support for Apache Struts - this support is in addition to the basic support provided for Apache Struts in the JEE Analyzer. This extension’s main role is to improve the detection of links and transaction computations where Apache Struts is implicated.

Note that:

  • At the current time, analysis results will contain duplicated objects: the “Struts Operation object” (created by the extension) corresponds to the Struts Action Mapping Operation object created by the JEE Analyzer - this duplication will be fixed in a future release.
  • All Transaction results involving Apache Struts code are generated using the “Struts Operation object” (created by the extension) and not the Struts Action Mapping Operation object created by the JEE Analyzer.

In what situation should you install this extension?

If your JEE application source code uses the Apache Struts framework you should install this extension to benefit from improved support for Apache Struts.

Supported Apache Struts versions

Apache Struts Supported
1.x ✔️
2.x ✔️

Supported client frameworks

Client framework Supported
jQuery ✔️
AngularJS ✔️

Function Point, Quality and Sizing support

This extension provides the following support:

  • Function Points (transactions): a green tick indicates that OMG Function Point counting and Transaction Risk Index are supported
  • Quality and Sizing: a green tick indicates that CAST can measure size and that a minimum set of Quality Rules exist
Measurement Supported
Function Points (transactions) ✔️
Quality and Sizing ✔️

Compatibility

CAST Imaging Core release Supported
8.3.x ✔️

Dependencies with other extensions

Some CAST extensions require the presence of other CAST extensions in order to function correctly. The Apache Struts extension requires that the following other CAST extensions are also installed:

Note that:

  • any dependent extensions are automatically downloaded and installed for you. You do not need to do anything.

For support of SelectAction, use HTML5/JavaScript ≥ 2.0.7 and Web Services Linker ≥ 1.6.7.

Transaction setup

An Apache Struts specific setup is automatically imported when the extension is installed:

What results can you expect?

Objects

Icon Description
Alt text Struts Operation

Features

  • Creates Struts Operations which represent entry-points for web services. For each operation, one Struts Operation object is created.
  • The dependent Universal Linker is responsible for detecting and creating links between the UI (JSP/HTML etc) to the “Struts Operation object” created by the extension.

Struts 1.1 support

Application configuration

In the “web.xml” file, the extension will detect the servlet pointing to “org.apache.struts.action.ActionServlet” class, indicating that Struts 1.1 is being used. The extension will detect the servlet-mapping (i.e. “*.perform” in the example below):

<web-app id="WebApp">
...
    <servlet>
        <servlet-name>action</servlet-name>
        <display-name>Struts Action</display-name>
        <servlet-class>org.apache.struts.action.ActionServlet</servlet-class>
....
    </servlet>
...
    <servlet-mapping>
        <servlet-name>action</servlet-name>
        <url-pattern>*.perform</url-pattern>
    </servlet-mapping>
....
</web-app>

In the struts config xml files (struts-XXX.xml), the extension will detect the correspondence between an URL and a java class (i.e. /logout corresponds to the “com.company.lightspeed.struts.logon.StrutsActionLogout” java class):

<struts-config>
...
  <action-mappings>
    <action
        path="/logout"
        type="com.company.lightspeed.struts.logon.StrutsActionLogout">
        <forward name="loggedOut" path="lightspeed/LoggedOut.jsp" />
    </action>
....
  </action-mappings>
</struts-config>

The extension will search for the “execute” method in the corresponding java class (here StrutsActionLogout class) and create a StrutsOperation named with the corresponding URL (here /logout). A call link between the StrutsOperation and the “execute” method will be created.

Note that the “execute” method may be defined in a parent class of StrutsActionLogout. This specific case which is common to both struts 1 and struts 2 is described in section “Modelling when the execute method is defined in a parent Struts class”.

Classes inheriting from org.apache.struts.actions.DispatchAction

The extension will search for all java classes implementing “org.apache.struts.actions.DispatchAction”.

For example:

import org.apache.struts.actions.DispatchAction;

    public class BookEditAction extends DispatchAction {


    public ActionForward editBook(
            ActionMapping mapping,
            ActionForm form,
            HttpServletRequest request,
            HttpServletResponse response) {
            BookEditForm bookEditForm = (BookEditForm) form;
            
            /* lalinuna.de 04.11.2004
             * get id of the book from request
             */
            Integer id = Integer.valueOf(request.getParameter("id"));
                    // [laliluna] 28.11.2004  get business logic
            LibraryManager libraryManager = new LibraryManager();
            bookEditForm.setBook(libraryManager.getBookByPrimaryKey(id));
            return mapping.findForward("showEdit");
    }

...
}

We create a Struts Operation with the name “/BookEdit?do=editBook” (this name is found in the struts web xml file or, by default, is the class name without the Action part), and a call link to the “editBook” method. The “do” after the “?” is found in the struts web xml file in the “parameter” field of the “action” tag. The same is done for every method of the class.

Example of a struts-config.xml:

<!DOCTYPE struts-config PUBLIC "-//Apache Software Foundation//DTD Struts Configuration 1.2//EN" "http://struts.apache.org/dtds/struts-config_1_2.dtd">
<struts-config>
   <action-mappings >
      <action
         attribute="bookEditForm"
         input="/jsp/bookEdit.jsp"
         name="bookEditForm"
         parameter="do"
         path="/bookEdit"
         scope="request"
         type="com.library.struts.action.BookEditAction">
         <forward name="showBorrow" path="/jsp/borrowBook.jsp" />
         <forward name="showEdit" path="/jsp/bookEdit.jsp" />
         <forward
            name="showList"
            path="/bookList.do"
            redirect="true" />
         <forward name="showAdd" path="/jsp/bookAdd.jsp" />
      </action>

   </action-mappings>
</struts-config>}

Results:

Classes inheriting from net.jspcontrols.dialogs.actions.SelectAction

The extension will search for all java classes implementing “net.jspcontrols.dialogs.actions.SelectAction”.

For example:

public class MaintainMyAccountAction extends SelectAction{
    
    
     protected Map getKeyMethodMap() {
        Map map = new HashMap();
        map.put(getInitKey() + "-GET", "getfoo");
        map.put(getInitKey() + "-SAVE", "save");
        map.put(getInitKey() + "-CANCEL", "cancel");
        return map;
    }
    
    public ActionForward getfoo(ActionMapping mapping, 
        ActionForm form,
        HttpServletRequest request, 
        HttpServletResponse response)
        throws IOException, ServletException {
        ActionForward forward = null;
        UserForm userForm = (UserForm)form;

        UserVO userVO = (UserVO) UserSecurityManager.getUserContainer(request);
        if(userVO != null) CopyUtils.copyProperties(userForm,userVO);
        
        forward = mapping.findForward(Constant.SUCCESS);
        return(forward);
     }


...
}

In a SelectAction class, the method getKeyMethodMap provides a mapping between the methods and a parameter name. In the previous example, the method “getfoo” is mapped with a parameter DIALOG-EVENT-GET (DIALOG-EVENT is the output of getInitKey()).

We create a Struts Operation with the name “/MaintainMyAccount?DIALOG-EVENT-GET” (this name is found in the struts web xml file or, when no reference to this class is found in the web xml file, this name is set to the class name without the Action part), and a call link to the “getfoo” method.

Struts 1.x + Spring

DelegatingActionProxy

Spring provides a special action class org.springframework.web.struts.DelegatingActionProxy that acts as a proxy for struts actions, allowing more indirections:

<struts-config>
...
  <action-mappings>
    <action path="/user" type="org.springframework.web.struts.DelegatingActionProxy">
....
  </action-mappings>
</struts-config>

The class name is then found in a bean:

<bean name="/user" scope="prototype" autowire="byName" class="org.example.web.UserAction"/>

or in a bean alias.

<bean name="/someBean" scope="prototype" autowire="byName" class="org.example.web.UserAction"/>
<alias alias="/user" name="/someBean"/>

Struts 2.x support

Application configuration

In the “web.xml” file, the extension will detect the filter pointing to “org.apache.struts2.dispatcher.FilterDispatcher” class, indicating that Struts 2.x is being used. The extension will detect the servlet-mapping (i.e. “*.action;/*” in the example below). The extension will also obtain the filter “struts2” and “BaseStrutsFilter” because “BaseStrutsFilter” points to a class that exists in the analysis.

<web-app xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance" xmlns="http://java.sun.com/xml/ns/javaee" xmlns:jsp="http://java.sun.com/xml/ns/javaee/jsp" xmlns:web="http://java.sun.com/xml/ns/javaee/web-app_2_5.xsd" xsi:schemaLocation="http://java.sun.com/xml/ns/javaee http://java.sun.com/xml/ns/javaee/web-app_2_5.xsd" id="WebApp_ID" version="2.5">
...
    <filter>
        <filter-name>struts2</filter-name>
        <filter-class>org.apache.struts2.dispatcher.FilterDispatcher</filter-class>
        <init-param>
            <param-name>actionPackages</param-name>
            <param-value>com.mapa.sipe.apresentacao.action, br.gov.mapa.arquitetura.apresentacao.struts</param-value>
        </init-param>
    </filter> 

    <filter>
        <display-name>BaseStrutsFilter</display-name>
        <filter-name>BaseStrutsFilter</filter-name>
        <filter-class>com.mapa.sipe.apresentacao.filter.BaseStrutsSipeFilter</filter-class>
        <init-param>
            <param-name>public-url</param-name>
            <param-value>/sipe/imprimirGruPublica.action</param-value>
        </init-param>
    </filter>
    
    <filter-mapping>
        <filter-name>BaseStrutsFilter</filter-name>
        <url-pattern>*.action</url-pattern>
        <dispatcher>REQUEST</dispatcher>
        <dispatcher>FORWARD</dispatcher>
    </filter-mapping>

    <filter-mapping>
        <filter-name>struts2</filter-name>
        <url-pattern>/*</url-pattern>
        <dispatcher>REQUEST</dispatcher>
        <dispatcher>ERROR</dispatcher> 
    </filter-mapping>
....
</web-app>

If a struts config file exists as shown below, the extension can obtain a correspondence between the path and a java class: in the example below, name=“Login” gives the name of the operation that will be created:

<struts>
...
    <package name="chapterSixPublic" namespace="/chapterSix" extends="struts-default">

        <action name="Login" class="manning.chapterSix.Login">
                    <result type="redirect">/chapterSix/secure/AdminPortfolio.action</result>
                    <result name="input">/chapterSix/Login.jsp</result>
        </action>

....
    </package>

</struts>

The extension will search for the “execute” method in the corresponding java class (here manning.chapterSix.Login class) and create a StrutsOperation named with the corresponding URL (here /Login). A call link between the StrutsOperation and the “execute” method will be created.

The “execute” method may be defined in a parent class of StrutsActionLogout. This specific case which is common to both struts 1 and struts 2 is described in section “Modelling when the execute method is defined in a parent Struts class”.

Classes with @Results annotation

The extension will search for all java classes using the “@Results” annotation which is resolved to “org.apache.struts2.config.Results”.

For example:

@Results({@Result(name = "popup", value = "popUpRestringe", type = TilesResult.class),
        @Result(name = "popupRegistro", value = "popUpRestringeRegistro", type = TilesResult.class),
        @Result(name = "base", value = "base", type = ActionChainResult.class, params = {"method", "execute"})})
public class RestringeAction extends SipeBaseAction {

   public String carregarRegistro() throws Exception {
        VwPessoaVinculadaEstab vw = montarVwPessoaVinculadaEstab();
        if (vw != null) {
            listaDadosRegistro =
                getSipeComumBD().consultarRegistroCadastro(vw.getIdPessoaEstabelecimento(), getJAASPrincipal().getIdPessoaFisica(), getIdAreaSelecionada(),
                    getPreCadastroAtivo(), getStPerfil());
            for (RegistroEstabCadDTO dados : listaDadosRegistro) {
                if (dados.getCdRegistroCadastro().equals(getRegistroSelecionado())) {
                    vw.setDadosRegistro(dados);
                    recuperarInformacoesUsuarioLogado(vw);
                    break;
                }
            }
            adicionarEstabelecimentoSessao(vw);
        }
        return FW_BASE;
    }

}

The extension will then search for all methods which are public and have “String” as the return type. The extension will create a Struts Operation with the name “/Restringe!carregarRegistro” (Restringe is the class name without the ending “Action”), and a call link to the method.

For example:

Classes implementing SessionAware

The extension will search for all java classes implementing “org.apache.struts2.interceptor.SessionAware”.

For example:

import org.apache.struts2.interceptor.SessionAware;

public class Login extends ActionSupport implements SessionAware {
    

    public String execute(){
        
        User user = getPortfolioService().authenticateUser( getUsername(), getPassword() ); 
        if ( user == null )
        {
            /* User not valid, return to input page. */
            return INPUT;
        }
        else{
            session.put( Struts2PortfolioConstants.USER, user );
        }
        
        return SUCCESS;
    }

}

The extension will create a Struts Operation with the name “/Login” (this name is found in a struts XML config file or the class name by default), and a call link to the “execute” method.

For example:

Classes inheriting from com.opensymphony.xwork2.ActionSupport

The extension will search for all java classes implementing “com.opensymphony.xwork2.ActionSupport”.

For example:

import com.opensymphony.xwork2.ActionSupport;

public class ManageFieldsPVAction extends ActionSupport{
    private static final long serialVersionUID = -8126525052448102790L;
    
    private String first_name;
    private String last_name;
    
    public String execute() {
        //if (first_name==null)
        //  return "login";
        //setFirst_name(first_name+=" with added thingies from your favorite Action!!!");
        return "success";
        
    }
...
}

The extension will create a Struts Operation with the name “/ManageFieldsPV” (this name is found in the class name without the Action part), and a call link to the “execute” method.

Class and methods using @Action annotation

Annotationsexternal link of the “struts2 convention plugin” can be used instead of struts.xml files.

For exemple :

import org.apache.struts2.convention.annotation.Action;

@Action(value = "login", results = {
        @Result(name = "SUCCESS", location = "/welcome.jsp"),
        @Result(name = "ERROR", location = "/error.jsp") })
public class LoginAction {

    public String execute() throws Exception {
        if("pankaj".equals(getName()) && "admin".equals(getPwd()))
        return "SUCCESS";
        else return "ERROR";
    }
    
    @Action(value = "foopath", results = {
            @Result(name = "SUCCESS", location = "/has_been_in_method.jsp"),
            @Result(name = "ERROR", location = "/error.jsp") })
    public String a_method() throws Exception {
        this.name = "single_annotation";
        return "SUCCESS";
    }
}

The extension will create two Struts Operations :

  • one named “/login” (which corresponds to the string assigned to value). A callLink from that operation to the execute method is created.
  • one named “/foopath”. A callLink from that operation to the a_method method is created.

Struts 2.x + Spring

StrutsSpringObjectFactor

Spring offers additional indirection for Struts 2 using org.apache.struts2.spring.StrutsSpringObjectFactory.

<struts>
...
    <constant name="struts.objectFactory" value="org.apache.struts2.spring.StrutsSpringObjectFactory" />
...
    <package name="chapterSixPublic" namespace="/chapterSix" extends="struts-default">

        <action name="Login" class="myBean">

....
    </package>

</struts>

Again the real class will be indicated in a bean.

<bean name="myBean" class="manning.chapterSix.Login"/>

Modeling when the execute method is defined in a parent Struts class

In both struts 1 and struts 2 it is common that the “execute” method is not defined within the referred java class but in a parent of that class. This “execute” method then calls a method that is overridden in the referred java class. In that case, a call link is created between the Struts Operation and this method.

Let’s for instance consider the struts 1 application using the following config xml file ( which defines that a /logout URL refers to the “com.company.lightspeed.struts.logon.StrutsActionLogout” java class):

<struts-config>
...
  <action-mappings>
    <action
        path="/logout"
        type="com.company.lightspeed.struts.logon.StrutsActionLogout">
        <forward name="loggedOut" path="lightspeed/LoggedOut.jsp" />
    </action>
....
  </action-mappings>
</struts-config>

If no “execute” method is found in “com.company.lightspeed.struts.logon.StrutsActionLogout” java class, the extension searches for the “execute” method in the class hierarchy.

For example:

In this example, the “execute” method is found in the parent java class ActionBaseCommon. The extension will analyze this “execute” method to see if a method of the “referred” java class (here StrutsActionLogout) is called from “execute” (here the “execute” method calls “executeExtended” which is in the “referred” java class StrutsActionLogout). The extension will create a Struts Operation named “/logout” (name found in the Struts xml file) and a call link between the operation and the “executeExtended” method.

Current known limitations

  • The Class name to URL naming convention of the convention plugin is not supported
  • When Dynamic Method Invocation is used, the method foo of action hello can be accessed with both the URLs: hello!foo.action and hello.action?method: foo. As the recommended approach is to use the first URL and in order to limit the number of objects created, the analyzer supports only the first approach.

Structural Rules

The following structural rules are provided:

Release Link
1.5.7-funcrel https://technologies.castsoftware.com/rules?sec=srs_struts&ref=||1.5.7-funcrelexternal link
1.5.6-funcrel https://technologies.castsoftware.com/rules?sec=srs_struts&ref=||1.5.6-funcrelexternal link
1.5.5-funcrel https://technologies.castsoftware.com/rules?sec=srs_struts&ref=||1.5.5-funcrelexternal link
1.5.4-funcrel https://technologies.castsoftware.com/rules?sec=srs_struts&ref=||1.5.4-funcrelexternal link
1.5.3-funcrel https://technologies.castsoftware.com/rules?sec=srs_struts&ref=||1.5.3-funcrelexternal link
1.5.2-funcrel https://technologies.castsoftware.com/rules?sec=srs_struts&ref=||1.5.2-funcrelexternal link
1.5.1-funcrel https://technologies.castsoftware.com/rules?sec=srs_struts&ref=||1.5.1-funcrelexternal link
1.5.0-funcrel https://technologies.castsoftware.com/rules?sec=srs_struts&ref=||1.5.0-funcrelexternal link