avax.faces-api.2.2-m11.source-code.web-facesconfig_2_0.xsd Maven / Gradle / Ivy
Go to download
Show more of this group Show more artifacts with this name
Show all versions of javax.faces-api Show documentation
Show all versions of javax.faces-api Show documentation
This is the master POM file for Oracle's Implementation of the JSF 2.3 Specification.
DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS HEADER.
Copyright (c) 2010 Oracle and/or its affiliates. All rights reserved.
The contents of this file are subject to the terms of either the GNU
General Public License Version 2 only ("GPL") or the Common Development
and Distribution License("CDDL") (collectively, the "License"). You
may not use this file except in compliance with the License. You can
obtain a copy of the License at
https://glassfish.dev.java.net/public/CDDL+GPL_1_1.html
or packager/legal/LICENSE.txt. See the License for the specific
language governing permissions and limitations under the License.
When distributing the software, include this License Header Notice in each
file and include the License file at packager/legal/LICENSE.txt.
GPL Classpath Exception:
Oracle designates this particular file as subject to the "Classpath"
exception as provided by Oracle in the GPL Version 2 section of the License
file that accompanied this code.
Modifications:
If applicable, add the following below the License Header, with the fields
enclosed by brackets [] replaced by your own identifying information:
"Portions Copyright [year] [name of copyright owner]"
Contributor(s):
If you wish your version of this file to be governed by only the CDDL or
only the GPL Version 2, indicate your decision by adding "[Contributor]
elects to include this software in this distribution under the [CDDL or GPL
Version 2] license." If you don't indicate a single choice of license, a
recipient has the option to distribute your version of this file under
either the CDDL, the GPL Version 2 or to extend the choice of license to
its licensees as provided above. However, if you add GPL Version 2 code
and therefore, elected the GPL Version 2 license, then the option applies
only if the new code is made subject to such option by the copyright
holder.
...
The instance documents may indicate the published
version of the schema using xsi:schemaLocation attribute
for javaee namespace with the following location:
http://java.sun.com/xml/ns/javaee/web-facesconfig_2_0.xsd
]]>
The "faces-config" element is the root of the configuration
information hierarchy, and contains nested elements for all
of the other configuration settings.
Behavior IDs must be unique within a document.
Converter IDs must be unique within a document.
'converter-for-class' element values must be unique
within a document.
Validator IDs must be unique within a document.
Managed bean names must be unique within a document.
The "faces-config" element is the root of the configuration
information hierarchy, and contains nested elements for all
of the other configuration settings.
The "name" element within the top level "faces-config"
element declares the name of this application
configuration resource. Such names are used
in the document ordering scheme specified in section
JSF.11.4.6.
The metadata-complete attribute defines whether this
JavaServer Faces application is complete, or whether
the class files available to this module and packaged with
this application should be examined for annotations
that specify configuration information.
This attribute is only inspected on the application
configuration resource file located at "WEB-INF/faces-config.xml".
The presence of this attribute on any application configuration
resource other than the one located at "WEB-INF/faces-config.xml",
including any files named using the javax.faces.CONFIG_FILES
attribute, must be ignored.
If metadata-complete is set to "true", the JavaServer Faces
runtime must ignore any annotations that specify configuration
information, which might be present in the class files
of the application.
If metadata-complete is not specified or is set to
"false", the JavaServer Faces runtime must examine the class
files of the application for annotations, as specified by
the specification.
If "WEB-INF/faces-config.xml" is not present, the JavaServer
Faces runtime will assume metadata-complete to be "false".
The value of this attribute will have no impact on
runtime annotations such as @ResourceDependency or
@ListenerFor.
Extension element for faces-config. It may contain
implementation specific content.
Please see section JSF.11.4.6 for the specification of this element.
This element contains a sequence of "id" elements, each of which
refers to an application configuration resource by the "id"
declared on its faces-config element. This element can also contain
a single "others" element which specifies that this document comes
before or after other documents within the application.
This element indicates that the ordering sub-element in which
it was placed should take special action regarding the ordering
of this application resource relative to other
application configuration resources. See section JSF.11.4.6
for the complete specification.
Only relevant if this is placed within the /WEB-INF/faces-config.xml.
Please see section JSF.11.4.6 for the specification for details.
The "application" element provides a mechanism to define the
various per-application-singleton implementation artifacts for
a particular web application that is utilizing
JavaServer Faces. For nested elements that are not specified,
the JSF implementation must provide a suitable default.
The "action-listener" element contains the fully
qualified class name of the concrete
ActionListener implementation class that will be
called during the Invoke Application phase of the
request processing lifecycle.
The "default-render-kit-id" element allows the
application to define a renderkit to be used other
than the standard one.
The base name of a resource bundle representing
the message resources for this application. See
the JavaDocs for the "java.util.ResourceBundle"
class for more information on the syntax of
resource bundle names.
The "navigation-handler" element contains the
fully qualified class name of the concrete
NavigationHandler implementation class that will
be called during the Invoke Application phase
of the request processing lifecycle, if the
default ActionListener (provided by the JSF
implementation) is used.
The "view-handler" element contains the fully
qualified class name of the concrete ViewHandler
implementation class that will be called during
the Restore View and Render Response phases of the
request processing lifecycle. The faces
implementation must provide a default
implementation of this class.
The "state-manager" element contains the fully
qualified class name of the concrete StateManager
implementation class that will be called during
the Restore View and Render Response phases of the
request processing lifecycle. The faces
implementation must provide a default
implementation of this class.
The "el-resolver" element contains the fully
qualified class name of the concrete
javax.el.ELResolver implementation class
that will be used during the processing of
EL expressions.
The "property-resolver" element contains the fully
qualified class name of the concrete
PropertyResolver implementation class that will
be used during the processing of value binding
expressions.
The "variable-resolver" element contains the fully
qualified class name of the concrete
VariableResolver implementation class that will
be used during the processing of value binding
expressions.
The resource-bundle element inside the application element
references a java.util.ResourceBundle instance by name
using the var element. ResourceBundles referenced in this
manner may be returned by a call to
Application.getResourceBundle() passing the current
FacesContext for this request and the value of the var
element below.
The fully qualified class name of the
java.util.ResourceBundle instance.
The name by which this ResourceBundle instance
is retrieved by a call to
Application.getResourceBundle().
Extension element for application. It may contain
implementation specific content.
The "factory" element provides a mechanism to define the
various Factories that comprise parts of the implementation
of JavaServer Faces. For nested elements that are not
specified, the JSF implementation must provide a suitable
default.
The "application-factory" element contains the
fully qualified class name of the concrete
ApplicationFactory implementation class that will
be called when
FactoryFinder.getFactory(APPLICATION_FACTORY) is
called.
The "exception-handler-factory" element contains the
fully qualified class name of the concrete
ExceptionHandlerFactory implementation class that will
be called when
FactoryFinder.getFactory(EXCEPTION_HANDLER_FACTORY)
is called.
The "external-context-factory" element contains the
fully qualified class name of the concrete
ExternalContextFactory implementation class that will
be called when
FactoryFinder.getFactory(EXTERNAL_CONTEXT_FACTORY)
is called.
The "faces-context-factory" element contains the
fully qualified class name of the concrete
FacesContextFactory implementation class that will
be called when
FactoryFinder.getFactory(FACES_CONTEXT_FACTORY)
is called.
The "partial-view-context-factory" element contains the
fully qualified class name of the concrete
PartialViewContextFactory implementation class that will
be called when FactoryFinder.getFactory
(FactoryFinder.PARTIAL_VIEW_CONTEXT_FACTORY) is called.
The "lifecycle-factory" element contains the fully
qualified class name of the concrete LifecycleFactory
implementation class that will be called when
FactoryFinder.getFactory(LIFECYCLE_FACTORY) is called.
The "view-declaration-language-factory" element contains
the fully qualified class name of the concrete
ViewDeclarationLanguageFactory
implementation class that will be called when
FactoryFinder.getFactory(VIEW_DECLARATION_FACTORY) is called.
The "tag-handler-delegate-factory" element contains
the fully qualified class name of the concrete
ViewDeclarationLanguageFactory
implementation class that will be called when
FactoryFinder.getFactory(TAG_HANDLER_DELEGATE_FACTORY) is called.
The "render-kit-factory" element contains the fully
qualified class name of the concrete RenderKitFactory
implementation class that will be called when
FactoryFinder.getFactory(RENDER_KIT_FACTORY) is
called.
The "visit-context-factory" element contains the fully
qualified class name of the concrete VisitContextFactory
implementation class that will be called when
FactoryFinder.getFactory(VISIT_CONTEXT_FACTORY) is
called.
Extension element for factory. It may contain
implementation specific content.
The "attribute" element represents a named, typed, value
associated with the parent UIComponent via the generic
attributes mechanism.
Attribute names must be unique within the scope of the parent
(or related) component.
The "attribute-name" element represents the name under
which the corresponding value will be stored, in the
generic attributes of the UIComponent we are related
to.
The "attribute-class" element represents the Java type
of the value associated with this attribute name.
Extension element for attribute. It may contain
implementation specific content.
The "component" element represents a concrete UIComponent
implementation class that should be registered under the
specified type identifier, along with its associated
properties and attributes. Component types must be unique
within the entire web application.
Nested "attribute" elements identify generic attributes that
are recognized by the implementation logic of this component.
Nested "property" elements identify JavaBeans properties of
the component class that may be exposed for manipulation
via tools.
The "component-type" element represents the name under
which the corresponding UIComponent class should be
registered.
The "component-class" element represents the fully
qualified class name of a concrete UIComponent
implementation class.
Extension element for component. It may contain
implementation specific content.
The "default-locale" element declares the default locale
for this application instance.
It must be specified as :language:[_:country:[_:variant:]]
without the colons, for example "ja_JP_SJIS". The
separators between the segments may be '-' or '_'.
The "default-value" contains the value for the property or
attribute in which this element resides. This value differs
from the "suggested-value" in that the property or attribute
must take the value, whereas in "suggested-value" taking the
value is optional.
EL expressions present within a faces config file
must start with the character sequence of '#{' and
end with '}'.
Define the name and other design-time information for a facet
that is associated with a renderer or a component.
The "facet-name" element represents the facet name
under which a UIComponent will be added to its parent.
It must be of type "Identifier".
Extension element for facet. It may contain implementation
specific content.
The value of from-view-id must contain one of the following
values:
- The exact match for a view identifier that is recognized
by the the ViewHandler implementation being used (such as
"/index.jsp" if you are using the default ViewHandler).
- A proper prefix of a view identifier, plus a trailing
"*" character. This pattern indicates that all view
identifiers that match the portion of the pattern up to
the asterisk will match the surrounding rule. When more
than one match exists, the match with the longest pattern
is selected.
- An "*" character, which means that this pattern applies
to all view identifiers.
The "from-action" element contains an action reference
expression that must have been executed (by the default
ActionListener for handling application level events)
in order to select the navigation rule. If not specified,
this rule will be relevant no matter which action reference
was executed (or if no action reference was executed).
The "if" element defines a condition that must resolve
to true in order for the navigation case on which it is
defined to be matched, with the existing match criteria
(action method and outcome) as a prerequiste, if present.
The condition is defined declaratively using a value
expression in the body of this element. The expression is
evaluated at the time the navigation case is being matched.
If the "from-outcome" is omitted and this element is
present, the navigation handler will match a null outcome
and use the condition return value to determine if the
case should be considered a match.
The "converter" element represents a concrete Converter
implementation class that should be registered under the
specified converter identifier. Converter identifiers must
be unique within the entire web application.
Nested "attribute" elements identify generic attributes that
may be configured on the corresponding UIComponent in order
to affect the operation of the Converter. Nested "property"
elements identify JavaBeans properties of the Converter
implementation class that may be configured to affect the
operation of the Converter. "attribute" and "property"
elements are intended to allow component developers to
more completely describe their components to tools and users.
These elements have no required runtime semantics.
The "converter-id" element represents the
identifier under which the corresponding
Converter class should be registered.
The "converter-for-class" element represents the
fully qualified class name for which a Converter
class will be registered.
The "converter-class" element represents the fully
qualified class name of a concrete Converter
implementation class.
Nested "attribute" elements identify generic
attributes that may be configured on the
corresponding UIComponent in order to affect the
operation of the Converter. This attribute is
primarily for design-time tools and is not
specified to have any meaning at runtime.
Nested "property" elements identify JavaBeans
properties of the Converter implementation class
that may be configured to affect the operation of
the Converter. This attribute is primarily for
design-time tools and is not specified to have
any meaning at runtime.
Extension element for converter. It may contain
implementation specific content.
The "lifecycle" element provides a mechanism to specify
modifications to the behaviour of the default Lifecycle
implementation for this web application.
The "phase-listener" element contains the fully
qualified class name of the concrete PhaseListener
implementation class that will be registered on
the Lifecycle.
Extension element for lifecycle. It may contain
implementation specific content.
The localeType defines valid locale defined by ISO-639-1
and ISO-3166.
The "locale-config" element allows the app developer to
declare the supported locales for this application.
The "default-validators" element allows the app developer to
register a set of validators, referenced by identifier, that
are automatically assigned to any EditableValueHolder component
in the application, unless overridden or disabled locally.
The "validator-id" element represents the identifier
of a registered validator.
The "managed-bean" element represents a JavaBean, of a
particular class, that will be dynamically instantiated
at runtime (by the default VariableResolver implementation)
if it is referenced as the first element of a value binding
expression, and no corresponding bean can be identified in
any scope. In addition to the creation of the managed bean,
and the optional storing of it into the specified scope,
the nested managed-property elements can be used to
initialize the contents of settable JavaBeans properties of
the created instance.
The "managed-bean-name" element represents the
attribute name under which a managed bean will
be searched for, as well as stored (unless the
"managed-bean-scope" value is "none").
The "managed-bean-class" element represents the fully
qualified class name of the Java class that will be
used`to instantiate a new instance if creation of the
specified`managed bean is requested.
The specified class must conform to standard JavaBeans
conventions. In particular, it must have a public
zero-arguments constructor, and zero or more public
property setters.
The "managed-bean-scope" element represents the scope
into which a newly created instance of the specified
managed bean will be stored (unless the value is
"none").
This attribute is only considered when associated with
an application-scoped managed bean. If the value of the eager
attribute is true the runtime must instantiate this class
and store the instance within the application scope when the
application starts.
If eager is unspecified or is false, the default "lazy"
instantiation and scoped storage of the managed bean
will occur.
Extension element for managed-bean. It may contain
implementation specific content.
element's body content, which includes all of the scopes
normally used in a web application, plus the "none" value
indicating that a created bean should not be stored into
any scope. Alternatively, an EL expression may be used
as the value of this element. The result of evaluating this
expression must by of type java.util.Map.
]]>
The "managed-property" element represents an individual
property of a managed bean that will be configured to the
specified value (or value set) if the corresponding
managed bean is automatically created.
The "property-name" element represents the JavaBeans
property name under which the corresponding value may
be stored.
The "property-class" element represents the Java type
of the value associated with this property name.
If not specified, it can be inferred from existing
classes; however, this element should be specified
if the configuration file is going to be the source
for generating the corresponding classes.
The "map-entry" element reprsents a single key-entry pair
that will be added to the computed value of a managed
property of type java.util.Map.
The "key" element is the String representation of a
map key that will be stored in a managed property of
type java.util.Map.
The "map-entries' element represents a set of key-entry pairs
that will be added to the computed value of a managed property
of type java.util.Map. In addition, the Java class types
of the key and entry values may be optionally declared.
The "key-class" element defines the Java type to which
each "key" element in a set of "map-entry" elements
will be converted to. If omitted, "java.lang.String"
is assumed.
The "navigation-case" element describes a particular
combination of conditions that must match for this case to
be executed, and the view id of the component tree that
should be selected next.
The "from-outcome" element contains a logical outcome
string returned by the execution of an application
action method selected via an "actionRef" property
(or a literal value specified by an "action" property)
of a UICommand component. If specified, this rule
will be relevant only if the outcome value matches
this element's value. If not specified, this rule
will be relevant if the outcome value is non-null
or, if the "if" element is present, will be relevant
for any outcome value, with the assumption that the
condition specified in the "if" element ultimately
determines if this rule is a match.
Please see section JSF.7.4.2 for the specification of this element.
The "to-view-id" element contains the view identifier
of the next view that should be displayed if this
navigation rule is matched. If the contents is a
value expression, it should be resolved by the
navigation handler to obtain the view identifier.
The "navigation-rule" element represents an individual
decision rule that will be utilized by the default
NavigationHandler implementation to make decisions on
what view should be displayed next, based on the
view id being processed.
Extension element for navigation-rule. It may contain
implementation specific content.
The "null-value" element indicates that the managed
property in which we are nested will be explicitly
set to null if our managed bean is automatically
created. This is different from omitting the managed
property element entirely, which will cause no
property setter to be called for this property.
The "null-value" element can only be used when the
associated "property-class" identifies a Java class,
not a Java primitive.
The "property" element represents a JavaBean property of the
Java class represented by our parent element.
Property names must be unique within the scope of the Java
class that is represented by the parent element, and must
correspond to property names that will be recognized when
performing introspection against that class via
java.beans.Introspector.
The "property-name" element represents the JavaBeans
property name under which the corresponding value
may be stored.
The "property-class" element represents the Java type
of the value associated with this property name.
If not specified, it can be inferred from existing
classes; however, this element should be specified if
the configuration file is going to be the source for
generating the corresponding classes.
Extension element for property. It may contain
implementation specific content.
The "redirect" element indicates that navigation to the
specified "to-view-id" should be accomplished by
performing an HTTP redirect rather than the usual
ViewHandler mechanisms.
This element was introduced due to a specification
error, and is now deprecated. The correct name for
this element is "redirect-param" and its meaning is
documented therein. The "view-param" element is
maintained to preserve backwards compatibility.
Implementations must treat this element the same as
"redirect-param".
The "redirect-param" element, only valid within
a "redirect" element, contains child "name"
and "value" elements that must be included in the
redirect url when the redirect is performed.
The "referenced-bean" element represents at design time the
promise that a Java object of the specified type will exist at
runtime in some scope, under the specified key. This can be
used by design time tools to construct user interface dialogs
based on the properties of the specified class. The presence
or absence of a referenced bean element has no impact on the
JavaServer Faces runtime environment inside a web application.
The "referenced-bean-name" element represents the
attribute name under which the corresponding
referenced bean may be assumed to be stored, in one
of 'request', 'session', 'view', 'application'
or a custom scope.
The "referenced-bean-class" element represents the
fully qualified class name of the Java class
(either abstract or concrete) or Java interface
implemented by the corresponding referenced bean.
The "render-kit" element represents a concrete RenderKit
implementation that should be registered under the specified
render-kit-id. If no render-kit-id is specified, the
identifier of the default RenderKit
(RenderKitFactory.DEFAULT_RENDER_KIT) is assumed.
The "render-kit-id" element represents an identifier
for the RenderKit represented by the parent
"render-kit" element.
The "render-kit-class" element represents the fully
qualified class name of a concrete RenderKit
implementation class.
The "client-behavior-renderer" element represents a concrete
ClientBehaviorRenderer implementation class that should be
registered under the specified behavior renderer type identifier,
in the RenderKit associated with the parent "render-kit"
element. Client Behavior renderer type must be unique within the RenderKit
associated with the parent "render-kit" element.
Nested "attribute" elements identify generic component
attributes that are recognized by this renderer.
The "client-behavior-renderer-type" element represents a renderer type
identifier for the Client Behavior Renderer represented by the parent
"client-behavior-renderer" element.
The "client-behavior-renderer-class" element represents the fully
qualified class name of a concrete Client Behavior Renderer
implementation class.
The "renderer" element represents a concrete Renderer
implementation class that should be registered under the
specified component family and renderer type identifiers,
in the RenderKit associated with the parent "render-kit"
element. Combinations of component family and
renderer type must be unique within the RenderKit
associated with the parent "render-kit" element.
Nested "attribute" elements identify generic component
attributes that are recognized by this renderer.
The "component-family" element represents the
component family for which the Renderer represented
by the parent "renderer" element will be used.
The "renderer-type" element represents a renderer type
identifier for the Renderer represented by the parent
"renderer" element.
The "renderer-class" element represents the fully
qualified class name of a concrete Renderer
implementation class.
Extension element for renderer. It may contain implementation
specific content.
Extension element for render-kit. It may contain
implementation specific content.
The "suggested-value" contains the value for the property or
attribute in which this element resides. This value is
advisory only and is intended for tools to use when
populating pallettes.
The "supported-locale" element allows authors to declare
which locales are supported in this application instance.
It must be specified as :language:[_:country:[_:variant:]]
without the colons, for example "ja_JP_SJIS". The
separators between the segments may be '-' or '_'.
The "behavior" element represents a concrete Behavior
implementation class that should be registered under the
specified behavior identifier. Behavior identifiers must
be unique within the entire web application.
Nested "attribute" elements identify generic attributes that
may be configured on the corresponding UIComponent in order
to affect the operation of the Behavior. Nested "property"
elements identify JavaBeans properties of the Behavior
implementation class that may be configured to affect the
operation of the Behavior. "attribute" and "property"
elements are intended to allow component developers to
more completely describe their components to tools and users.
These elements have no required runtime semantics.
The "behavior-id" element represents the identifier
under which the corresponding Behavior class should
be registered.
The "behavior-class" element represents the fully
qualified class name of a concrete Behavior
implementation class.
Nested "attribute" elements identify generic
attributes that may be configured on the
corresponding UIComponent in order to affect the
operation of the Behavior. This attribute is
primarily for design-time tools and is not
specified to have any meaning at runtime.
Nested "property" elements identify JavaBeans
properties of the Behavior implementation class
that may be configured to affect the operation of
the Behavior. This attribute is primarily for
design-time tools and is not specified to have
any meaning at runtime.
Extension element for behavior. It may contain
implementation specific content.
The "validator" element represents a concrete Validator
implementation class that should be registered under the
specified validator identifier. Validator identifiers must
be unique within the entire web application.
Nested "attribute" elements identify generic attributes that
may be configured on the corresponding UIComponent in order
to affect the operation of the Validator. Nested "property"
elements identify JavaBeans properties of the Validator
implementation class that may be configured to affect the
operation of the Validator. "attribute" and "property"
elements are intended to allow component developers to
more completely describe their components to tools and users.
These elements have no required runtime semantics.
The "validator-id" element represents the identifier
under which the corresponding Validator class should
be registered.
The "validator-class" element represents the fully
qualified class name of a concrete Validator
implementation class.
Nested "attribute" elements identify generic
attributes that may be configured on the
corresponding UIComponent in order to affect the
operation of the Validator. This attribute is
primarily for design-time tools and is not
specified to have any meaning at runtime.
Nested "property" elements identify JavaBeans
properties of the Validator implementation class
that may be configured to affect the operation of
the Validator. This attribute is primarily for
design-time tools and is not specified to have
any meaning at runtime.
Extension element for validator. It may contain
implementation specific content.
The "value" element is the String representation of
a literal value to which a scalar managed property
will be set, or a value binding expression ("#{...}")
that will be used to calculate the required value.
It will be converted as specified for the actual
property type.
The "value-class" element defines the Java type to which each
"value" element's value will be converted to, prior to adding
it to the "list-entries" list for a managed property that is
a java.util.List, or a "map-entries" map for a managed
property that is a java.util.Map.
The "list-entries" element represents a set of initialization
elements for a managed property that is a java.util.List or an
array. In the former case, the "value-class" element can
optionally be used to declare the Java type to which each
value should be converted before adding it to the Collection.
The presence of this element within the "application" element in
an application configuration resource file indicates the
developer wants to add an SystemEventListener to this
application instance. Elements nested within this element allow
selecting the kinds of events that will be delivered to the
listener instance, and allow selecting the kinds of classes that
can be the source of events that are delivered to the listener
instance.
The "system-event-listener-class" element contains
the fully qualified class name of the concrete
SystemEventListener implementation class that will be
called when events of the type specified by the
"system-event-class" are sent by the runtime.
The "system-event-class" element contains the fully
qualified class name of the SystemEvent subclass for
which events will be delivered to the class whose fully
qualified class name is given by the
"system-event-listener-class" element.
The "source-class" element, if present, contains the
fully qualified class name of the class that will be the
source for the event to be delivered to the class whose
fully qualified class name is given by the
"system-event-listener-class" element.
This type contains the recognized versions of
faces-config supported.