The action mappings are the basic "unit-of-work" in the framework. Essentially, the action maps an identifier to a handler class. When a request matches the action's name, the framework uses the mapping to determine how to process the request.
Table of Contents | ||
---|---|---|
|
Action Mappings
The action mapping can specify a set of result types, a set of exception handlers, and an interceptor stack. Only the name
attribute is required. The other attributes can also be provided at package scope.
Code Block | ||
---|---|---|
| ||
<action name="Logon" class="tutorial.Logon"> <result type="redirectAction">Menu</result> <result name="input">/Logon.jsp</result> </action> |
When using Convention Plugin the action mapping can be configured with annotations:
Code Block | ||
---|---|---|
| ||
package tutorial @Action("Logon") // actually that is not necessary as it is added by convention @Results( @Result(type="redirectAction", location="Menu"), @Result(name="input", location="/Logon.jsp") ) public class Logon { |
Action Names
In a web application, the name
attribute is matched as part of the location requested by a browser (or other HTTP client). The framework will drop the host and application name and the extension and match what's in the middle: the action name. So, a request for http://www.planetstruts.org/struts2-mailreader/Welcome.doaction
will map to the Welcome
action.
...
Code Block | ||
---|---|---|
| ||
<s:form action="Hello">
<s:textfield label="Please enter your name" name="name"/>
<s:submit/>
</s:form>
| ||
Info | ||
Action Names With Slashes
If your action names have slashes in them (for example, <action name="admin/home" class="tutorial.Admin"/>
) you need to specifically allow slashes in your action names via a constant in the struts.xml
file by specifying <constant name="struts.enable.SlashesInActionNames" value="true"/>
. See JIRA Issue WW-1383 for discussion as there are side effects to setting this property to true
.
...
Action Names with Dots and Dashes
Although action naming is pretty flexible, one should pay attention when using dots (eg. create.user) and/or dashes (eg. my-action). While the dot notation has no known side effects at this time, the dash notation will cause problems with the generated JavaScript for certain tags and themes. Use with caution, and always try to use camelcase action names (eg. createUser) or underscores (eg. my_action).
Allowed action names
DefaultActionMapper
is using pre-defined RegEx to check if action name matches allowed names. The default RegEx is defined as follow: [a-zA-Z0-9._!/\-]*
- if at some point this doesn't match your action naming schema you can define your own RegEx and override the default using constant named struts.allowed.action.names
, e.g.:
Code Block | ||||
---|---|---|---|---|
| ||||
<struts>
<constant name="struts.allowed.action.names" value="[a-z{}]"*/>
...
</struts> |
NOTE: Please be aware that action names not matching the RegEx will rise an exception.
Action Methods
The default entry method to the handler class is defined by the Action interface.
Code Block | ||
---|---|---|
| ||
public interface Action {
public String execute() throws Exception;
}
|
...
Sometimes, developers like to create more than one entry point to an Action. For example, in the case of a data-access Action, a developer might want separate entry-points for create
, retrieve
, update
, and delete
. A different entry point can be specified by the method
attribute.
Code Block | ||||
---|---|---|---|---|
| ||||
<action name="delete" class="example.CrudAction" method="delete">
...
|
If there is no execute
method and no other method specified in the configuration the framework will throw an exception.excerpt
Convention Plugin allows that by annotating methods:
Code Block | ||
---|---|---|
| ||
@Action("crud")
public class CrudAction {
@Action("delete")
public String delete() {
...
|
Wildcard Method
Many times, a set of action mappings will share a common pattern. For example, all your edit
actions might start with the word "edit", and call the edit
method on the Action class. The delete
actions might use the same pattern, but call the delete
method instead.
Rather than code a separate mapping for each action class that uses this pattern, you can write it once as a wildcard mapping.
Code Block | ||||
---|---|---|---|---|
| ||||
<action name="*Crud" class="example.Crud" method="{1}">
...
|
...
To use a postfix wildcard, just move the asterisk and add an underscore.
Code Block | ||||
---|---|---|---|---|
| ||||
<action name="Crud_*" class="example.Crud" method="{1}">
|
...
There's a feature embedded in WebWork Struts 2 that lets the "!" (bang) character invoke a method other than execute
. In WebWork, it doesn't really have a name. During the S2 discussions, we coined the term "dynamic method invocation" to describe how WW/S2 use the bang notation.It is called "Dynamic Method Invocation" aka DMI.
DMI Dynamic Method Invocation (DMI) will use the string following a "!" character in an action name as the name of a method to invoke (instead of execute
). A reference to "Category!create.action
", says to use the "Category" action mapping, but call the create
method instead.
Another way to use DMI is to provide HTTP parameters prefixed with "method:
". For example in the URL it could be "Category.action?method:create=foo
", the parameter value is ignored. In POST-Requests that can be used e.g. with a hidden parameter (<s:hidden name="method:create" value="foo" />
) or along with a button (<s:submit method="create" />
).
For Struts 2, we added a switch to disable DMI for two reasons. First, DMI can cause security issues if POJO actions are used. Second, DMI overlaps with the Wildcard Method feature that we brought over from Struts 1 (and from Cocoon before that). If you have security concerns, or would like to use the "!" character with Wildcard Method actions, then set struts.enable.DynamicMethodInvocation
to FALSE
in the application configuration.
The framework does support DMI, just like WebWork 2, but there are problems with way DMI is implemented. Essentially, the code scans the action name for a "!" character, and finding one, tricks the framework into invoking the other method instead of execute
. The other method is invoked, but it uses the same configuration as the execute
method, including validations. The framework "believes" it is invoking the Category
action with the execute
method.
The Wildcard Method feature is implemented differently. When a Wildcard Method action is invoked, the framework acts as if the matching action had been hardcoded in the configuration. The framework "believes" it's executing the action Category!create
and "knows" it is executing the create
method of the corresponding Action class. Accordingly, we can add for a Wildcard Method action mapping its own validations, message resources, and type converters, just like a conventional action mapping. For this reason, the Wildcard Method is preferred.
Strict DMI
In Struts 2.3, an option was added to restrict the methods that DMI can invoke. First, set the attribute strict-method-invocation="true"
on your <package>
element. This tells Struts to reject any method that is not explicitly allowed via either the method
attribute (including wildcards) or the <allowed-methods>
tag. Then specify <allowed-methods>
as a comma-separated list of method names in your <action>
. (If you specify a method
attribute for your action, you do not need to list it in <allowed-methods>
.)
Note that you can specify <allowed-methods>
even without strict-method-invocation
. This restricts access only for the specific actions that have <allowed-methods>
.
Code Block | ||||||
---|---|---|---|---|---|---|
| ||||||
<?xml version="1.0" encoding="UTF-8" ?> <!DOCTYPE struts PUBLIC "-//Apache Software Foundation//DTD Struts Configuration 2.3//EN" "http://struts.apache.org/dtds/struts-2.3.dtd"> <struts> <constant name="struts.enable.DynamicMethodInvocation" value="true"/> <package name="default" extends="struts-default" strict-method-invocation="true"> <action name="index" class="org.apache.struts2.examples.actions.Index"> <result name="success" type="redirectAction">hello</result> </action> <action name="hello" class="org.apache.struts2.examples.actions.HelloAction"> <result name="success">/WEB-INF/content/hello.jsp</result> <result name="redisplay" type="redirectAction">hello</result> <allowed-methods>add</allowed-methods> </action> </package> </struts> |
Strict Method Invocation
In Struts 2.5 the Strict DMI was extended and it's called Strict Method Invocation aka SMI. You can imagine that the DMI is a "border police", where SMI is a "tax police" and keeps eye on internals. With this version, SMI is enabled by default (strict-method-invocation
attribute is set to true
by default in struts-default
package), you have option to disable it per package - there is no global switch to disable SMI for the whole application. To gain advantage of new configuration option please use the latest DTD definition:
Code Block | ||||
---|---|---|---|---|
| ||||
<?xml version="1.0" encoding="UTF-8" ?>
<!DOCTYPE struts PUBLIC
"-//Apache Software Foundation//DTD Struts Configuration 2.5//EN"
"http://struts.apache.org/dtds/struts-2.5.dtd">
<struts>
...
</struts> |
SMI works in the following way:
<allowed-methods>
/@AllowedMethods
is defined per action - SMI works without switching it on but just for those actions (plus adding<global-allowed-methods/>
)- SMI is enabled but no
<allowed-methods>
/@AllowedMethods
are defined - SMI works but only with<global-allowed-methods/>
- SMI is disabled - call to any action method is allowed that matches the default RegEx -
([A-Za-z0-9_$]*)
You can redefine the default RegEx by using a constant as follow <constant name="struts.strictMethodInvocation.methodRegex" value="([a-zA-Z]*)"/>
Note |
---|
When using wildcard mapping in actions' definitions SMI works in two ways:
|
You can configure SMI per <action/>
using <allowed-methods/>
tag or via @AllowedMethod
annotation plus using per <package/>
<global-allowed-methods/>
, see the examples below:
Code Block | ||||
---|---|---|---|---|
| ||||
<package ...>
...
<global-allowed-methods>execute,input,back,cancel,browse</global-allowed-methods>
...
<action name="Bar">
<allowed-methods>foo,bar</allowed-methods>
</action>
...
</package>
|
Code Block | ||||
---|---|---|---|---|
| ||||
@AllowedMethods("end")
public class ClassLevelAllowedMethodsAction {
public String execute() {
return ...
}
} |
Code Block | ||||
---|---|---|---|---|
| ||||
@org.apache.struts2.convention.annotation.AllowedMethods({"home", "start"})
package org.apache.struts2.convention.actions.allowedmethods; |
Allowed methods can be defined as:
literals ie. in xml:
execute,cancel
or in annotation:{"
execute
", "cancel
"}- patterns when using with wildcard mapping, i.e
<action ... method="do{2}"/>
- RegExs using
regex:
prefix, ie:<global-allowed-methods>execute,input,cancel,regex:user([A-Z]*)</global-allowed-methods>
Note |
---|
Please be aware when using your own |
ActionSupport Default
If the class attribute in an action mapping is left blank, the com.opensymphony.xwork2.ActionSupport
class is used as a default.
Code Block |
---|
<action name="Hello">
// ...
</action>
|
...
Code Block | ||
---|---|---|
| ||
<s:form>
<s:textfield label="Please enter your name" name="name"/>
<s:submit/>
</s:form>
|
...
Usually, if an action is requested, and the framework can't map the request to an action name, the result will be the usual "404 - Page not found" error. But, if you would prefer that an omnibus action handle any unmatched requests, you can specify a default action. If no other action matches, the default action is used instead.
Code Block | ||||
---|---|---|---|---|
| ||||
<package name="Hello" extends="action-default"> <default-action-ref name="UnderConstruction"/> <action name="UnderConstruction"> <result>/UnderConstruction.jsp</result> </action> ... |
...
Using wildcards is another approach to default actions. A wildcard action at the end of the configuration can be used to catch unmatched references.
Code Block | ||||
---|---|---|---|---|
| ||||
<action name="*">
<result>/{1}.jsp</result>
</action>
|
...
It's important to put a "catchall" wildcard mapping like this at the end of your configuration so it won't attempt to map every request!
FAQ
How can we display dynamic or static images that can be provided as an array of bytes?
How can we test Actions?
How can we force the Action Mappings (struts.xml) to reload?