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package javax.faces.validator;
import java.lang.reflect.Array;
import java.util.*;
import java.util.logging.Logger;
import javax.el.ValueExpression;
import javax.faces.FacesException;
import javax.faces.application.FacesMessage;
import javax.faces.context.FacesContext;
import javax.faces.component.UIComponent;
import javax.faces.component.PartialStateHolder;
import javax.validation.ConstraintViolation;
import javax.validation.MessageInterpolator;
import javax.validation.Validation;
import javax.validation.ValidatorContext;
import javax.validation.ValidationException;
import javax.validation.ValidatorFactory;
import javax.validation.groups.Default;
/**
* A Validator that delegates
* validation of the bean property to the Bean Validation API.
* @since 2.0
*/
public class BeanValidator implements Validator, PartialStateHolder {
private static final Logger LOGGER =
Logger.getLogger("javax.faces.validator", "javax.faces.LogStrings");
private String validationGroups;
private transient Class[] cachedValidationGroups;
/**
* The standard validator id for this
* validator, as defined by the JSF specification.
*/
public static final String VALIDATOR_ID = "javax.faces.Bean";
/**
* The message identifier of the {@link javax.faces.application.FacesMessage} to be created if
* a constraint failure is found. The message format string for
* this message may optionally include the following placeholders:
*
* {0}
replaced by the interpolated message from Bean Validation.
* {1}
replaced by a String
whose value
* is the label of the input component that produced this message.
*
* The message format string provided by the default implementation should be a the placeholder {0},
* thus fully delegating the message handling to Bean Validation. A developer can override this message
* format string to make it conform to other JSF validator messages (i.e., by including the component label)
*/
public static final String MESSAGE_ID = "javax.faces.validator.BeanValidator.MESSAGE";
/**
* The name of the servlet context
* attribute which holds the object used by JSF to obtain Validator
* instances. If the servlet context attribute is missing or
* contains a null value, JSF is free to use this servlet context
* attribute to store the ValidatorFactory bootstrapped by this
* validator.
*/
public static final String VALIDATOR_FACTORY_KEY = "javax.faces.validator.beanValidator.ValidatorFactory";
/**
* The delimiter that is used to
* separate the list of fully-qualified group names as strings.
*/
public static final String VALIDATION_GROUPS_DELIMITER = ",";
/**
* The regular expression pattern that
* identifies an empty list of validation groups.
*/
public static final String EMPTY_VALIDATION_GROUPS_PATTERN = "^[\\W" + VALIDATION_GROUPS_DELIMITER + "]*$";
/**
* If this param is defined, and
* calling toLowerCase().equals(“true”)
on a
* String
representation of its value returns
* true
, the runtime must not automatically add the
* validator with validator-id equal to the value of the symbolic
* constant {@link #VALIDATOR_ID} to the list of default validators.
* Setting this parameter to true
will have the effect
* of disabling the automatic installation of Bean Validation to
* every input component in every view in the application, though
* manual installation is still possible.
*
*/
public static final String DISABLE_DEFAULT_BEAN_VALIDATOR_PARAM_NAME =
"javax.faces.validator.DISABLE_DEFAULT_BEAN_VALIDATOR";
/**
* A comma-separated list of validation
* groups which are used to filter which validations get checked by
* this validator. If the validationGroupsArray attribute is omitted or
* is empty, the validation groups will be inherited from the branch
* defaults or, if there are no branch defaults, the {@link
* javax.validation.groups.Default} group will be used.
*
* @param validationGroups comma-separated list of validation groups
* (string with only spaces and commas treated as null)
*/
public void setValidationGroups(String validationGroups) {
clearInitialState();
// treat empty list as null
if (validationGroups != null && validationGroups.matches(EMPTY_VALIDATION_GROUPS_PATTERN)) {
validationGroups = null;
}
// only clear cache of validation group classes if value is changing
if ((validationGroups == null && this.validationGroups != null) ||
(validationGroups != null && !validationGroups.equals(this.validationGroups))) {
this.cachedValidationGroups = null;
}
this.validationGroups = validationGroups;
}
/**
* Return the validation groups passed
* to the Validation API when checking constraints. If the
* validationGroupsArray attribute is omitted or empty, the validation
* groups will be inherited from the branch defaults, or if there
* are no branch defaults, the {@link
* javax.validation.groups.Default} group will be used.
*/
public String getValidationGroups() {
return validationGroups;
}
/**
* Verify that the value is valid
* according to the Bean Validation constraints.
*
*
* Obtain a {@link ValidatorFactory} instance by calling {@link
* javax.validation.Validation#buildDefaultValidatorFactory}.
* Let validationGroupsArray be a Class []
* 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.
* Let valueExpression be the return from calling {@link
* UIComponent#getValueExpression} on the argument
* component, 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
* ValueReference
from valueExpression and let
* valueBaseClase be the return from calling
* ValueReference.getBase()
and valueProperty
* be the return from calling
* ValueReference.getProperty()
. If an earlier version
* of the Unified EL is present, use the appropriate methods to
* inspect valueExpression and derive values for
* valueBaseClass and valueProperty.
* If no ValueReference
can be obtained, take no
* action and return.
* If ValueReference.getBase()
return
* null
, take no action and return.
* Obtain the {@link ValidatorContext} from the {@link
* ValidatorFactory}.
* Decorate the {@link MessageInterpolator} returned from {@link
* ValidatorFactory#getMessageInterpolator} with one that leverages
* the Locale
returned from {@link
* javax.faces.component.UIViewRoot#getLocale}, and store it in the
* ValidatorContext
using {@link
* ValidatorContext#messageInterpolator}.
* Obtain the {@link javax.validation.Validator} instance from
* the validatorContext
.
* Obtain a javax.validation.BeanDescriptor
from the
* javax.validation.Validator
. If
* hasConstraints()
on the BeanDescriptor
* returns false, take no action and return. Otherwise proceed.
* Call {@link javax.validation.Validator#validateValue}, passing
* valueBaseClass, valueProperty, the
* value argument, and validatorGroupsArray as
* arguments.
* If the returned Set<{@link
* ConstraintViolation}>
is non-empty, for each element in
* the Set
, create a {@link FacesMessage} where the
* summary and detail are the return from calling {@link
* ConstraintViolation#getMessage}. Capture all such
* FacesMessage
instances into a
* Collection
and pass them to {@link
* ValidatorException#ValidatorException(java.util.Collection)},
* throwing the new exception.
*
*
* @param context {@inheritDoc}
* @param component {@inheritDoc}
* @param value {@inheritDoc}
*
* @throws ValidatorException {@inheritDoc}
*/
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 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 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);
}
throw toThrow;
}
} else {
}
}
private boolean isResolvable(ValueReference ref,
ValueExpression valueExpression) {
Boolean result = null;
String failureMessage = null;
if (null == valueExpression) {
failureMessage = "Unable to validate expression using Bean "+
"Validation. Expression must not be null.";
result = false;
} else if (null == ref) {
failureMessage = "Unable to validate expression " +
valueExpression.getExpressionString() +
" using Bean Validation. Unable to get value of expression.";
result = false;
} else {
Class baseClass = ref.getBaseClass();
// case 1, base classes of Map, List, or Array are not resolvable
if (null != baseClass) {
if (Map.class.isAssignableFrom(baseClass) ||
Collection.class.isAssignableFrom(baseClass) ||
Array.class.isAssignableFrom(baseClass)) {
failureMessage = "Unable to validate expression " + valueExpression.getExpressionString() +
" using Bean Validation. Expression evaluates to a Map, List or array.";
result = false;
}
}
}
result = ((null != result) ? result : true);
if (!result) {
LOGGER.fine(failureMessage);
}
return result;
}
private Class[] parseValidationGroups(String validationGroupsStr) {
if (cachedValidationGroups != null) {
return cachedValidationGroups;
}
if (validationGroupsStr == null) {
cachedValidationGroups = new Class[] { Default.class };
return cachedValidationGroups;
}
List validationGroupsList = new ArrayList();
String[] classNames = validationGroupsStr.split(VALIDATION_GROUPS_DELIMITER);
for (String className : classNames) {
className = className.trim();
if (className.length() == 0) {
continue;
}
if (className.equals(Default.class.getName())) {
validationGroupsList.add(Default.class);
}
else {
try {
validationGroupsList.add(Class.forName(className, false, Thread.currentThread().getContextClassLoader()));
} catch (ClassNotFoundException e1) {
try {
validationGroupsList.add(Class.forName(className));
} catch (ClassNotFoundException e2) {
throw new FacesException("Validation group not found: " + className);
}
}
}
}
cachedValidationGroups = validationGroupsList.toArray(new Class[validationGroupsList.size()]);
return cachedValidationGroups;
}
// ----------------------------------------------------- StateHolder Methods
public Object saveState(FacesContext context) {
if (context == null) {
throw new NullPointerException();
}
if (!initialStateMarked()) {
Object values[] = new Object[1];
values[0] = validationGroups;
return values;
}
return null;
}
public void restoreState(FacesContext context, Object state) {
if (context == null) {
throw new NullPointerException();
}
if (state != null) {
Object values[] = (Object[]) state;
validationGroups = (String) values[0];
}
}
private boolean initialState;
public void markInitialState() {
initialState = true;
}
public boolean initialStateMarked() {
return initialState;
}
public void clearInitialState() {
initialState = false;
}
private boolean transientValue = false;
public boolean isTransient() {
return this.transientValue;
}
public void setTransient(boolean transientValue) {
this.transientValue = transientValue;
}
private static class JsfAwareMessageInterpolator implements MessageInterpolator {
private FacesContext context;
private MessageInterpolator delegate;
public JsfAwareMessageInterpolator(FacesContext context, MessageInterpolator delegate) {
this.context = context;
this.delegate = delegate;
}
public String interpolate(String message, MessageInterpolator.Context context) {
Locale locale = this.context.getViewRoot().getLocale();
if (locale == null) {
locale = Locale.getDefault();
}
return delegate.interpolate(message, context, locale);
}
public String interpolate(String message, MessageInterpolator.Context context, Locale locale) {
return delegate.interpolate(message, context, locale);
}
}
}