@Override
public MessageInterpolator getMessageInterpolator() {
return delegate.getMessageInterpolator();
}
/**
* <span class="changed_modified_2_3">Verify</span> that the value is valid according to the Bean
* Validation constraints. <div class="changed_added_2_0">
*
* <p>Obtain a {@link ValidatorFactory} instance by calling {@link
* javax.validation.Validation#buildDefaultValidatorFactory}.
*
* <p>Let <em>validationGroupsArray</em> be a <code>Class []</code> representing validator groups
* set on the component by the tag handler for this validator. The first search component
* terminates the search for the validation groups value. If no such value is found use the class
* name of {@link javax.validation.groups.Default} as the value of the validation groups.
*
* <p>Let <em>valueExpression</em> be the return from calling {@link
* UIComponent#getValueExpression} on the argument <em>component</em>, passing the literal string
* “value” (without the quotes) as an argument. If this application is running in an
* environment with a Unified EL Implementation for Java EE6 or later, obtain the <code>
* ValueReference</code> from <em>valueExpression</em> and let <em>valueBaseClase</em> be the
* return from calling <code>ValueReference.getBase()</code> and <em>valueProperty</em> be the
* return from calling <code>ValueReference.getProperty()</code>. If an earlier version of the
* Unified EL is present, use the appropriate methods to inspect <em>valueExpression</em> and
* derive values for <em>valueBaseClass</em> and <em>valueProperty</em>.
*
* <p>If no <code>ValueReference</code> can be obtained, take no action and return.
*
* <p>If <code>ValueReference.getBase()</code> return <code>null</code>, take no action and
* return.
*
* <p>Obtain the {@link ValidatorContext} from the {@link ValidatorFactory}.
*
* <p>Decorate the {@link MessageInterpolator} returned from {@link
* ValidatorFactory#getMessageInterpolator} with one that leverages the <code>Locale</code>
* returned from {@link javax.faces.component.UIViewRoot#getLocale}, and store it in the <code>
* ValidatorContext</code> using {@link ValidatorContext#messageInterpolator}.
*
* <p>Obtain the {@link javax.validation.Validator} instance from the <code>validatorContext
* </code>.
*
* <p>Obtain a <code>javax.validation.BeanDescriptor</code> from the <code>
* javax.validation.Validator</code>. If <code>hasConstraints()</code> on the <code>BeanDescriptor
* </code> returns false, take no action and return. Otherwise proceed.
*
* <p>Call {@link javax.validation.Validator#validateValue}, passing <em>valueBaseClass</em>,
* <em>valueProperty</em>, the <em>value</em> argument, and <em>validatorGroupsArray</em> as
* arguments.
*
* <p>If the returned <code>Set<{@link
* ConstraintViolation}></code> is non-empty, for each element in the <code>Set</code>, create
* a {@link FacesMessage} where the summary and detail are the return from calling {@link
* ConstraintViolation#getMessage}. Capture all such <code>FacesMessage</code> instances into a
* <code>Collection</code> and pass them to {@link
* ValidatorException#ValidatorException(java.util.Collection)}. <span
* class="changed_added_2_3">If the {@link #ENABLE_VALIDATE_WHOLE_BEAN_PARAM_NAME} application
* parameter is enabled and this {@code Validator} instance has validation groups other than or in
* addition to the {@code Default} group, record the fact that this field failed validation so
* that any <code><f:validateWholeBean /></code> component later in the tree is able to skip
* class-level validation for the bean for which this particular field is a property. Regardless
* of whether or not {@link #ENABLE_VALIDATE_WHOLE_BEAN_PARAM_NAME} is set, throw the new
* exception.</span>
*
* <p class="changed_added_2_3">If the returned {@code Set} is empty, the {@link
* #ENABLE_VALIDATE_WHOLE_BEAN_PARAM_NAME} application parameter is enabled and this {@code
* Validator} instance has validation groups other than or in addition to the {@code Default}
* group, record the fact that this field passed validation so that any <code>
* <f:validateWholeBean /></code> component later in the tree is able to allow class-level
* validation for the bean for which this particular field is a property. </div>
*
* @param context {@inheritDoc}
* @param component {@inheritDoc}
* @param value {@inheritDoc}
* @throws ValidatorException {@inheritDoc}
*/
@Override
public void validate(FacesContext context, UIComponent component, Object value) {
if (context == null) {
throw new NullPointerException();
}
if (component == null) {
throw new NullPointerException();
}
ValueExpression valueExpression = component.getValueExpression("value");
if (valueExpression == null) {
return;
}
ValidatorFactory validatorFactory;
Object cachedObject =
context.getExternalContext().getApplicationMap().get(VALIDATOR_FACTORY_KEY);
if (cachedObject instanceof ValidatorFactory) {
validatorFactory = (ValidatorFactory) cachedObject;
} else {
try {
validatorFactory = Validation.buildDefaultValidatorFactory();
} catch (ValidationException e) {
throw new FacesException("Could not build a default Bean Validator factory", e);
}
context.getExternalContext().getApplicationMap().put(VALIDATOR_FACTORY_KEY, validatorFactory);
}
ValidatorContext validatorContext = validatorFactory.usingContext();
MessageInterpolator jsfMessageInterpolator =
new JsfAwareMessageInterpolator(context, validatorFactory.getMessageInterpolator());
validatorContext.messageInterpolator(jsfMessageInterpolator);
javax.validation.Validator beanValidator = validatorContext.getValidator();
Class[] validationGroupsArray = parseValidationGroups(getValidationGroups());
// PENDING(rlubke, driscoll): When EL 1.3 is present, we won't need
// this.
ValueExpressionAnalyzer expressionAnalyzer = new ValueExpressionAnalyzer(valueExpression);
ValueReference valueReference = expressionAnalyzer.getReference(context.getELContext());
if (valueReference == null) {
return;
}
if (isResolvable(valueReference, valueExpression)) {
Set<ConstraintViolation<?>> violations = null;
try {
//noinspection unchecked
violations =
beanValidator.validateValue(
valueReference.getBaseClass(),
valueReference.getProperty(),
value,
validationGroupsArray);
} catch (IllegalArgumentException iae) {
String failureMessage =
"Unable to validate expression "
+ valueExpression.getExpressionString()
+ " using Bean Validation. Unable to get value of expression. "
+ " Message from Bean Validation: "
+ iae.getMessage();
LOGGER.fine(failureMessage);
}
if (violations != null && !violations.isEmpty()) {
ValidatorException toThrow;
if (1 == violations.size()) {
ConstraintViolation violation = violations.iterator().next();
toThrow =
new ValidatorException(
MessageFactory.getMessage(
context,
MESSAGE_ID,
violation.getMessage(),
MessageFactory.getLabel(context, component)));
} else {
Set<FacesMessage> messages = new LinkedHashSet<>(violations.size());
for (ConstraintViolation violation : violations) {
messages.add(
MessageFactory.getMessage(
context,
MESSAGE_ID,
violation.getMessage(),
MessageFactory.getLabel(context, component)));
}
toThrow = new ValidatorException(messages);
}
// Record the fact that this field failed validation, so that multi-field
// validation is not attempted.
if (MultiFieldValidationUtils.wholeBeanValidationEnabled(context, validationGroupsArray)) {
Map<Object, Map<String, Map<String, Object>>> multiFieldCandidates =
MultiFieldValidationUtils.getMultiFieldValidationCandidates(context, true);
Object val = valueReference.getBase();
Map<String, Map<String, Object>> candidate =
multiFieldCandidates.getOrDefault(val, new HashMap<>());
Map<String, Object> tuple = new HashMap<>();
tuple.put("component", component);
tuple.put("value", FAILED_FIELD_LEVEL_VALIDATION);
candidate.put(valueReference.getProperty(), tuple);
multiFieldCandidates.putIfAbsent(val, candidate);
}
throw toThrow;
}
}
// Record the fact that this field passed validation, so that multi-field
// validation can be performed if desired
if (MultiFieldValidationUtils.wholeBeanValidationEnabled(context, validationGroupsArray)) {
Map<Object, Map<String, Map<String, Object>>> multiFieldCandidates =
MultiFieldValidationUtils.getMultiFieldValidationCandidates(context, true);
Object val = valueReference.getBase();
Map<String, Map<String, Object>> candidate =
multiFieldCandidates.getOrDefault(val, new HashMap<>());
Map<String, Object> tuple =
new HashMap<>(); // new ComponentValueTuple((EditableValueHolder) component, value);
tuple.put("component", component);
tuple.put("value", value);
candidate.put(valueReference.getProperty(), tuple);
multiFieldCandidates.putIfAbsent(val, candidate);
}
}