public Result check(Descriptor descriptor) {
this.descriptor = descriptor;
result = getInitializedResult();
compName = getVerifierContext().getComponentNameConstructor();
ClassLoader cl = getVerifierContext().getClassLoader();
List<InjectionCapable> injectables = getInjectables(getClassName());
for (InjectionCapable injectionCapable : injectables) {
Set<InjectionTarget> iTargets = injectionCapable.getInjectionTargets();
for (InjectionTarget target : iTargets) {
try {
if (target.isFieldInjectable()) {
Class classObj = Class.forName(getClassName(), false, cl);
Field field = classObj.getDeclaredField(target.getFieldName());
testMethodModifiers(field.getModifiers(), "field", field);
}
if (target.isMethodInjectable()) {
Class classObj = Class.forName(getClassName(), false, cl);
Method method = getInjectedMethod(classObj, target.getMethodName());
if (method == null) continue;
testMethodModifiers(method.getModifiers(), "method", method);
}
} catch (Exception e) {
} // ignore as it will be caught in other tests
}
}
if (result.getStatus() != Result.FAILED) {
addGoodDetails(result, compName);
result.passed(
smh.getLocalString(getClass().getName() + ".passed", "Valid injection method(s)."));
}
return result;
}
public Result check(WebBundleDescriptor descriptor) {
Result result = getInitializedResult();
addWarningDetails(result, getVerifierContext().getComponentNameConstructor());
result.setStatus(Result.PASSED); // default status is PASSED
for (EntityManagerReferenceDescriptor emRefDesc :
descriptor.getEntityManagerReferenceDescriptors()) {
Set<InjectionTarget> injectionTargets = emRefDesc.getInjectionTargets();
if (injectionTargets != null) {
for (InjectionTarget it : injectionTargets) {
String itClassName = it.getClassName();
String errMsg =
smh.getLocalString(
className + ".warning",
"Found a persistence unit by name [ {0} ] injected into [ {1} ].",
new Object[] {emRefDesc.getUnitName(), itClassName});
try {
Class c = Class.forName(itClassName, false, getVerifierContext().getClassLoader());
if (!(Servlet.class.isAssignableFrom(c))) {
result.warning(errMsg);
} else if (!(SingleThreadModel.class.isAssignableFrom(c))) {
result.warning(errMsg);
}
} catch (Exception ex) {
result.warning(errMsg);
}
}
}
}
return result;
}
/**
* Checks if the EJB class implements the TimedObject interface
*
* @param descriptor the Enterprise Java Bean deployment descriptor
* @return <code>Result</code> the results for this assertion
*/
public Result check(EjbDescriptor descriptor) {
Result result = getInitializedResult();
ComponentNameConstructor compName = getVerifierContext().getComponentNameConstructor();
boolean isEjb30 = descriptor.getEjbBundleDescriptor().getSpecVersion().equalsIgnoreCase("3.0");
if (descriptor.isTimedObject()) {
// Timers can be created for stateless session beans, message-driven beans,
// and 2.1 entity beans.Timers cannot be created for stateful session beans or EJB 3.0
// entities.
if (((descriptor instanceof EjbEntityDescriptor) && isEjb30)
|| ((descriptor instanceof EjbSessionDescriptor)
&& ((((EjbSessionDescriptor) descriptor).getSessionType())
.equals(EjbSessionDescriptor.STATEFUL)))) {
addErrorDetails(result, compName);
result.failed(
smh.getLocalString(
getClass().getName() + ".failed1",
"[ {0} ] must not implement the TimedObject interface."
+ "Only 2.1 entity beans or stateless session beans may "
+ "implement the TimedObject interface",
new Object[] {descriptor.getEjbClassName()}));
}
}
if (result.getStatus() != Result.FAILED) {
addGoodDetails(result, compName);
result.passed(
smh.getLocalString(
getClass().getName() + ".passed",
"[ {0} ] properly implements the TimedObject interface",
new Object[] {descriptor.getEjbClassName()}));
}
return result;
}
/**
* Session Bean's bean-managed transaction demarcation test.
*
* <p>The enterprise bean with bean-managed transaction demarcation must be a Session bean.
*
* @param descriptor the Enterprise Java Bean deployment descriptor
* @return <code>Result</code> the results for this assertion
*/
public Result check(EjbDescriptor descriptor) {
Result result = getInitializedResult();
ComponentNameConstructor compName = getVerifierContext().getComponentNameConstructor();
String transactionType = descriptor.getTransactionType();
if (EjbSessionDescriptor.BEAN_TRANSACTION_TYPE.equals(transactionType)) {
if (descriptor instanceof EjbSessionDescriptor) {
result.addGoodDetails(
smh.getLocalString(
"tests.componentNameConstructor",
"For [ {0} ]",
new Object[] {compName.toString()}));
result.passed(
smh.getLocalString(
getClass().getName() + ".passed",
"[ {0} ] is valid transactionType within Session bean [ {1} ]",
new Object[] {transactionType, descriptor.getName()}));
} else if (descriptor instanceof EjbEntityDescriptor) {
result.addErrorDetails(
smh.getLocalString(
"tests.componentNameConstructor",
"For [ {0} ]",
new Object[] {compName.toString()}));
result.failed(
smh.getLocalString(
getClass().getName() + ".failedException",
"Error: [ {0} ] is not valid transactionType within entity bean [ {1} ]",
new Object[] {transactionType, descriptor.getName()}));
}
return result;
} else if (EjbSessionDescriptor.CONTAINER_TRANSACTION_TYPE.equals(transactionType)) {
result.addNaDetails(
smh.getLocalString(
"tests.componentNameConstructor", "For [ {0} ]", new Object[] {compName.toString()}));
result.notApplicable(
smh.getLocalString(
getClass().getName() + ".notApplicable",
"Expected [ {0} ] transaction demarcation, but [ {1} ] bean has [ {2} ] transaction demarcation.",
new Object[] {
EjbSessionDescriptor.BEAN_TRANSACTION_TYPE,
descriptor.getName(),
EjbSessionDescriptor.CONTAINER_TRANSACTION_TYPE
}));
return result;
} else {
result.addNaDetails(
smh.getLocalString(
"tests.componentNameConstructor", "For [ {0} ]", new Object[] {compName.toString()}));
result.notApplicable(
smh.getLocalString(
getClass().getName() + ".notApplicable",
"Expected [ {0} ] transaction demarcation, but [ {1} ] bean has [ {2} ] transaction demarcation.",
new Object[] {
EjbSessionDescriptor.BEAN_TRANSACTION_TYPE, descriptor.getName(), transactionType
}));
return result;
}
}
/**
* All methods should have a
*
* @param descriptor the Enterprise Java Bean deployment descriptor
* @return <code>Result</code> the results for this assertion
*/
public Result check(EjbDescriptor descriptor) {
result = getInitializedResult();
// boolean oneFailed = false;
try {
if (descriptor instanceof EjbSessionDescriptor || descriptor instanceof EjbEntityDescriptor) {
Set methods = descriptor.getMethodDescriptors();
// Set methodPermissions = new HashSet();
boolean noPermissions = false;
for (Iterator i = methods.iterator(); i.hasNext(); ) {
MethodDescriptor md = (MethodDescriptor) i.next();
Set permissions = descriptor.getMethodPermissionsFor(md);
if (permissions.isEmpty() || (permissions == null)) {
result.addWarningDetails(
smh.getLocalString(
getClass().getName() + ".failed",
"Warning: Method [ {0} ] of EJB [ {1} ] does not have assigned security-permissions",
new Object[] {md.getName(), descriptor.getName()}));
result.setStatus(result.WARNING);
noPermissions = true;
}
}
if (!noPermissions) {
result.passed(
smh.getLocalString(
getClass().getName() + ".passed",
"Valid: All [ {0} ]EJB interfaces methods have security-permissions assigned.",
new Object[] {descriptor.getName()}));
}
} else {
result.notApplicable(
smh.getLocalString(
getClass().getName() + ".notApplicable",
"The bean [ {0} ] is neither a Session nor Entity Bean",
new Object[] {descriptor.getName()}));
return result;
}
} catch (Exception e) {
result.failed(
smh.getLocalString(
getClass().getName() + ".exception",
"The test generated the following exception [ {0} ]",
new Object[] {e.getLocalizedMessage()}));
}
return result;
}
public Result check(EjbDescriptor descriptor) {
Result result = getInitializedResult();
ComponentNameConstructor compName = getVerifierContext().getComponentNameConstructor();
boolean oneFailed = false;
try {
Set resRef = descriptor.getResourceReferenceDescriptors();
if (!(resRef.isEmpty())) {
Iterator it = resRef.iterator();
while (it.hasNext()) {
ResourceReferenceDescriptor resDesc = ((ResourceReferenceDescriptor) it.next());
String refName = resDesc.getName();
if (refName == null || refName.length() == 0) {
addErrorDetails(result, compName);
result.failed(
smh.getLocalString(
getClass().getName() + ".failed",
"FAILED [AS-EJB resource-ref] : resource-ref has empty res-ref-name"));
} else {
addGoodDetails(result, compName);
result.passed(
smh.getLocalString(
getClass().getName() + ".passed",
"PASSED [AS-EJB resource-ref] : res-ref-name is {0}",
new Object[] {refName}));
}
}
} else {
addNaDetails(result, compName);
result.notApplicable(
smh.getLocalString(
getClass().getName() + ".notApplicable",
"{0} Does not define any resource-ref Elements",
new Object[] {descriptor.getName()}));
}
} catch (Exception ex) {
addErrorDetails(result, compName);
result.addErrorDetails(
smh.getLocalString(
getClass().getName() + ".notRun",
"NOT RUN [AS-EJB] : Could not create the descriptor object"));
}
return result;
}
private void commonToBothInterfaces(String intf, EjbDescriptor descriptor) {
try {
Class intfClass = Class.forName(intf, false, getVerifierContext().getClassLoader());
for (Method remoteMethod : intfClass.getMethods()) {
// we don't test the EJB methods
if (remoteMethod.getDeclaringClass().getName().equals("javax.ejb.EJBObject")) continue;
Class beanClass =
Class.forName(
descriptor.getEjbClassName(), false, getVerifierContext().getClassLoader());
for (Method method : beanClass.getMethods()) {
if (method.getName().equals(remoteMethod.getName())
&& !RmiIIOPUtils.isValidRmiIIOPReturnType(method.getReturnType())) {
// The methods arguments types must be legal types for
// RMI-IIOP. This means that their return values must
// be of valid types for RMI-IIOP,
addErrorDetails(result, compName);
result.failed(
smh.getLocalString(
getClass().getName() + ".failed",
"Error: business method [ {0} ] was found, but "
+ "business method has invalid return type [ {1} ]. Business "
+ "method return type must be a valid type for RMI-IIOP.",
new Object[] {method.getName(), method.getReturnType()}));
}
}
}
} catch (ClassNotFoundException e) {
Verifier.debug(e);
addErrorDetails(result, compName);
result.failed(
smh.getLocalString(
getClass().getName() + ".failedException",
"Error: Remote interface [ {0} ] or bean class [ {1} ] does "
+ "not exist or is not loadable within bean [ {2} ].",
new Object[] {
descriptor.getRemoteClassName(), descriptor.getEjbClassName(), descriptor.getName()
}));
}
}
private void testMethodModifiers(int modifier, String targetType, Object fieldOrMethod) {
if (Modifier.isStatic(modifier) || Modifier.isFinal(modifier)) {
addErrorDetails(result, compName);
result.failed(
smh.getLocalString(
"com.sun.enterprise.tools.verifier.tests.InjectionTargetTest.failed",
"Invalid annotation in {0} [ {1} ].",
new Object[] {targetType, fieldOrMethod}));
}
}
/**
* Enterprise Bean's business(...) methods argument RMI IIOP test. Each enterprise Bean class must
* define zero or more business(...) methods. The method signatures must follow these rules:
*
* <p>The methods return value must be legal types for RMI-IIOP.
*
* @param descriptor the Enterprise Java Bean deployment descriptor
* @return <code>Result</code> the results for this assertion
*/
public Result check(EjbDescriptor descriptor) {
result = getInitializedResult();
compName = getVerifierContext().getComponentNameConstructor();
if ((descriptor instanceof EjbSessionDescriptor)
|| (descriptor instanceof EjbEntityDescriptor)) {
if (descriptor.getRemoteClassName() != null && !"".equals(descriptor.getRemoteClassName()))
commonToBothInterfaces(descriptor.getRemoteClassName(), descriptor);
Set<String> remoteInterfaces = descriptor.getRemoteBusinessClassNames();
for (String remoteIntf : remoteInterfaces) commonToBothInterfaces(remoteIntf, descriptor);
}
if (result.getStatus() != Result.FAILED) {
addGoodDetails(result, compName);
result.passed(
smh.getLocalString(
getClass().getName() + ".passed", "Proper declaration of business method(s) found."));
}
return result;
}
/**
* Test if a javax.resource.cci.ConnectionMetaData implementation has been provided in the rar
* file
*
* @paramm descriptor deployment descriptor for the rar file
* @return result object containing the result of the individual test performed
*/
public Result check(ConnectorDescriptor descriptor) {
Result result = getInitializedResult();
ComponentNameConstructor compName = getVerifierContext().getComponentNameConstructor();
if (isCCIImplemented(descriptor, result)) {
// File jarFile = Verifier.getJarFile(descriptor.getModuleDescriptor().getArchiveUri());
// File
// f=Verifier.getArchiveFile(descriptor.getModuleDescriptor().getArchiveUri());
findImplementorOf(descriptor, "javax.resource.cci.ConnectionMetaData", result);
} else {
result.addNaDetails(
smh.getLocalString(
"tests.componentNameConstructor", "For [ {0} ]", new Object[] {compName.toString()}));
result.notApplicable(
smh.getLocalString(
"com.sun.enterprise.tools.verifier.tests.connector.cci.InteractionExistence.notapp",
"NotApplicable : The CCI interfaces do not seem to be implemented by this resource adapter"));
}
return result;
}
public Result check(EjbDescriptor descriptor) {
Result result = getInitializedResult();
ComponentNameConstructor compName = getVerifierContext().getComponentNameConstructor();
Set<String> remoteAndLocalIntfs = descriptor.getRemoteBusinessClassNames();
remoteAndLocalIntfs.addAll(descriptor.getLocalBusinessClassNames());
for (String remoteOrLocalIntf : remoteAndLocalIntfs) {
try {
Class c = Class.forName(remoteOrLocalIntf, false, getVerifierContext().getClassLoader());
if (javax.ejb.EJBObject.class.isAssignableFrom(c)
|| javax.ejb.EJBLocalObject.class.isAssignableFrom(c)) {
addErrorDetails(result, compName);
result.failed(
smh.getLocalString(
getClass().getName() + ".failed",
"[ {0} ] extends either javax.ejb.EJBObject " + "or javax.ejb.EJBLocalObject.",
new Object[] {remoteOrLocalIntf}));
}
} catch (ClassNotFoundException e) {
Verifier.debug(e);
addErrorDetails(result, compName);
result.failed(
smh.getLocalString(
getClass().getName() + ".failed1",
"Business Interface class [ {0} ] not found.",
new Object[] {remoteOrLocalIntf}));
}
}
if (result.getStatus() != Result.FAILED) {
addGoodDetails(result, compName);
result.passed(
smh.getLocalString(getClass().getName() + ".passed", "Business Interface(s) are valid."));
}
return result;
}
/**
* Check that the Client API Connection interface implements the close() method
*
* @paramm descriptor deployment descriptor for the rar file
* @return result object containing the result of the individual test performed
*/
public Result check(ConnectorDescriptor descriptor) {
// get the connection
Result result = getInitializedResult();
ComponentNameConstructor compName = getVerifierContext().getComponentNameConstructor();
if (isCCIImplemented(descriptor, result)) {
Class c = testConnectionImpl(descriptor, result);
if (c == null) {
return result;
}
// now check the close() method
Method m = getMethod(c, "close", null);
if (m != null) {
// passed
result.addGoodDetails(
smh.getLocalString(
"tests.componentNameConstructor",
"For [ {0} ]",
new Object[] {compName.toString()}));
result.passed(
smh.getLocalString(
getClass().getName() + ".passed",
"The connection interface [ {0} ] implements the close() method",
new Object[] {c.getName()}));
} else {
result.addErrorDetails(
smh.getLocalString(
"tests.componentNameConstructor",
"For [ {0} ]",
new Object[] {compName.toString()}));
result.failed(
smh.getLocalString(
getClass().getName() + ".failed",
"Error: The connection interface [ {0} ] does not implement the close() method",
new Object[] {c.getName()}));
}
} else {
// test is NA
result.addNaDetails(
smh.getLocalString(
"tests.componentNameConstructor", "For [ {0} ]", new Object[] {compName.toString()}));
result.notApplicable(
smh.getLocalString(
"com.sun.enterprise.tools.verifier.tests.connector.cci.notApp",
"The CCI interfaces do not seem to be implemented by this resource adapter"));
}
return result;
}
/**
* The ejb element specifies the URI of a ejb-jar, relative to the top level of the application
* package.
*
* @param descriptor the Application deployment descriptor
* @return <code>Result</code> the results for this assertion
*/
public Result check(Application descriptor) {
Result result = getInitializedResult();
if (descriptor.getBundleDescriptors(EjbBundleDescriptor.class).size() > 0) {
boolean oneFailed = false;
for (Iterator itr = descriptor.getBundleDescriptors(EjbBundleDescriptor.class).iterator();
itr.hasNext(); ) {
EjbBundleDescriptor ejbd = (EjbBundleDescriptor) itr.next();
// not sure what we can do to test this string?
if (ejbd.getModuleDescriptor().getArchiveUri().endsWith(".jar")) {
result.passed(
smh.getLocalString(
getClass().getName() + ".passed",
"[ {0} ] specifies the URI [ {1} ] of an ejb-jar, relative to the top level of the application package [ {2} ].",
new Object[] {
ejbd.getName(), ejbd.getModuleDescriptor().getArchiveUri(), descriptor.getName()
}));
} else {
if (!oneFailed) {
oneFailed = true;
}
result.addErrorDetails(
smh.getLocalString(
getClass().getName() + ".failed",
"Error: [ {0} ] does not specify the URI [ {1} ] of an ejb-jar, relative to the top level of the application package [ {2} ], or does not end with \".jar\"",
new Object[] {
ejbd.getName(), ejbd.getModuleDescriptor().getArchiveUri(), descriptor.getName()
}));
}
}
if (oneFailed) {
result.setStatus(Result.FAILED);
} else {
result.setStatus(Result.PASSED);
}
} else {
result.notApplicable(
smh.getLocalString(
getClass().getName() + ".notApplicable",
"There are no ejb components in application [ {0} ]",
new Object[] {descriptor.getName()}));
}
return result;
}
public Result check(WebBundleDescriptor descriptor) {
Result result = getInitializedResult();
ComponentNameConstructor compName = getVerifierContext().getComponentNameConstructor();
boolean oneFailed = false;
boolean notApp = false;
try {
WebProperty[] webProps = ((SunWebAppImpl) descriptor.getSunDescriptor()).getWebProperty();
if (webProps.length > 0) {
oneFailed = checkWebProperties(webProps, result, descriptor, this);
} else {
notApp = true;
addNaDetails(result, compName);
result.notApplicable(
smh.getLocalString(
getClass().getName() + ".notApplicable",
"NOT APPLICABLE [AS-WEB sun-web-app] web property element not defined within the web archive [ {0} ].",
new Object[] {descriptor.getName()}));
}
if (oneFailed) {
result.setStatus(Result.FAILED);
} else if (notApp) {
result.setStatus(Result.NOT_APPLICABLE);
} else {
result.setStatus(Result.PASSED);
}
} catch (Exception ex) {
oneFailed = true;
addErrorDetails(result, compName);
result.failed(
smh.getLocalString(
getClass().getName() + ".failed",
"FAILED [AS-WEB sun-web-app] could not create the web-property object"));
}
return result;
}
/**
* iterates over all declared filter in the archive file and delegates actual test on individual
* filter class to runIndividualFilterTest
*
* @param descriptor the Web deployment descriptor
* @return <code>Result</code> the results for this assertion
*/
public Result check(WebBundleDescriptor descriptor) {
Result result;
ComponentNameConstructor compName = getVerifierContext().getComponentNameConstructor();
Enumeration filterEnum = descriptor.getServletFilterDescriptors().elements();
if (filterEnum.hasMoreElements()) {
boolean oneFailed = false;
// test the filters in this .war
result = loadWarFile(descriptor);
while (filterEnum.hasMoreElements()) {
ServletFilterDescriptor filter = (ServletFilterDescriptor) filterEnum.nextElement();
Class filterClass = loadClass(result, filter.getClassName());
if (!runIndividualFilterTest(result, filterClass)) oneFailed = true;
}
if (oneFailed) {
result.setStatus(Result.FAILED);
} else {
result.setStatus(Result.PASSED);
}
} else {
result = getInitializedResult();
result.setStatus(Result.NOT_APPLICABLE);
result.addNaDetails(
smh.getLocalString(
"tests.componentNameConstructor", "For [ {0} ]", new Object[] {compName.toString()}));
result.notApplicable(
smh.getLocalString(
"com.sun.enterprise.tools.verifier.tests.web.FilterClass" + ".notApplicable",
"There are no filter components within the web archive [ {0} ]",
new Object[] {descriptor.getName()}));
}
return result;
}
/**
* run an individual home method test
*
* @param method the home method to test
* @param descriptor the deployment descriptor for the entity bean
* @param result the result object
*/
protected void runIndividualHomeMethodTest(
Method method, EjbDescriptor descriptor, Result result) {
Method m;
ComponentNameConstructor compName = getVerifierContext().getComponentNameConstructor();
try {
// retrieve the remote interface methods
ClassLoader jcl = getVerifierContext().getClassLoader();
Class ejbClass = Class.forName(descriptor.getEjbClassName(), false, jcl);
// Bug: 4952890. first character of this name should be converted to UpperCase.
String methodName =
method
.getName()
.replaceFirst(
method.getName().substring(0, 1), method.getName().substring(0, 1).toUpperCase());
String expectedMethodName = "ejbHome" + methodName;
do {
// retrieve the EJB Class Methods
m = getMethod(ejbClass, expectedMethodName, method.getParameterTypes());
} while (((ejbClass = ejbClass.getSuperclass()) != null) && (m == null));
if (m != null) {
int modifiers = m.getModifiers();
if (Modifier.isPublic(modifiers) && !Modifier.isStatic(modifiers)) {
addGoodDetails(result, compName);
result.addGoodDetails(
smh.getLocalString(
getClass().getName() + ".passed",
"For method [ {1} ] in Home Interface [ {0} ], ejbHome method is public and not static",
new Object[] {method.getDeclaringClass().getName(), method.getName()}));
result.setStatus(Result.PASSED);
// return true;
} else {
addErrorDetails(result, compName);
result.addErrorDetails(
smh.getLocalString(
getClass().getName() + ".notApplicable",
"Error : For method [ {1} ] defined in Home Interface [ {0} ], the ejbHome method is either static or not public",
new Object[] {method.getDeclaringClass().getName(), method.getName()}));
result.setStatus(Result.FAILED);
// return false;
}
} else {
addErrorDetails(result, compName);
result.addErrorDetails(
smh.getLocalString(
getClass().getName() + ".failed",
"Error : For method [ {1} ] defined in Home Interface [ {0} ], no ejbHome name matching method was found",
new Object[] {method.getDeclaringClass().getName(), method.getName()}));
result.setStatus(Result.FAILED);
// return true;
}
} catch (ClassNotFoundException e) {
Verifier.debug(e);
addErrorDetails(result, compName);
result.failed(
smh.getLocalString(
getClass().getName() + ".failedException",
"Error: Home interface [ {0} ] does not exist or is not loadable within bean [ {1} ]",
new Object[] {getClassName(descriptor), descriptor.getName()}));
// return false;
result.setStatus(Result.FAILED);
}
}
/**
* The Web form-error-page value defines the location in the web application where the page can be
* used for error page can be found within web application test
*
* @param descriptor the Web deployment descriptor
* @return <code>Result</code> the results for this assertion
*/
public Result check(WebBundleDescriptor descriptor) {
Result result = getInitializedResult();
ComponentNameConstructor compName = getVerifierContext().getComponentNameConstructor();
if (descriptor.getLoginConfiguration() != null) {
boolean foundIt = false;
// ZipEntry ze=null;
// JarFile jar=null;
FileArchive arch = null;
String formErrorPage = descriptor.getLoginConfiguration().getFormErrorPage();
if (formErrorPage.length() > 0) {
try {
// File f =
// Verifier.getArchiveFile(descriptor.getModuleDescriptor().getArchiveUri());
// if(f==null){
String uri = getAbstractArchiveUri(descriptor);
try {
arch = new FileArchive();
arch.open(uri);
} catch (IOException e) {
throw e;
}
// }else{
// jar = new JarFile(f);
// }
if (formErrorPage.startsWith("/")) formErrorPage = formErrorPage.substring(1);
// if (f!=null){
// ze = jar.getEntry(formErrorPage);
// foundIt = (ze != null);
// }
// else{
File fep = new File(new File(arch.getURI()), formErrorPage);
if (fep.exists()) foundIt = true;
fep = null;
// }
// if (jar!=null)
// jar.close();
} catch (Exception ex) {
// should be aldready set?
foundIt = false;
}
if (foundIt) {
result.addGoodDetails(
smh.getLocalString(
"tests.componentNameConstructor",
"For [ {0} ]",
new Object[] {compName.toString()}));
result.passed(
smh.getLocalString(
getClass().getName() + ".passed",
"The form-error-page [ {0} ] value defines the location in the web application where the error page that is displayed when login is not successful can be found within web application [ {1} ]",
new Object[] {formErrorPage, descriptor.getName()}));
} else {
result.addErrorDetails(
smh.getLocalString(
"tests.componentNameConstructor",
"For [ {0} ]",
new Object[] {compName.toString()}));
result.failed(
smh.getLocalString(
getClass().getName() + ".failed",
"Error: The form-error-page [ {0} ] value does not define the location in the web application where the error page that is displayed when login is not successful can be found within web application [ {1} ]",
new Object[] {formErrorPage, descriptor.getName()}));
}
} else {
result.addNaDetails(
smh.getLocalString(
"tests.componentNameConstructor",
"For [ {0} ]",
new Object[] {compName.toString()}));
result.notApplicable(
smh.getLocalString(
getClass().getName() + ".notApplicable",
"There are no form-error-page elements within this web archive [ {0} ]",
new Object[] {descriptor.getName()}));
}
} else {
result.addNaDetails(
smh.getLocalString(
"tests.componentNameConstructor", "For [ {0} ]", new Object[] {compName.toString()}));
result.notApplicable(
smh.getLocalString(
getClass().getName() + ".notApplicable",
"There are no form-error-page elements within this web archive [ {0} ]",
new Object[] {descriptor.getName()}));
}
return result;
}
/**
* Optionally implemented SessionSynchronization interface transaction demarcation test. If an
* enterprise bean implements the javax.ejb.SessionSynchronization interface, the Application
* Assembler can specify only the following values for the transaction attributes of the bean's
* methods: Required RequiresNew Mandatory
*
* @param descriptor the Enterprise Java Bean deployment descriptor
* @return <code>Result</code> the results for this assertion
*/
public Result check(EjbDescriptor descriptor) {
Result result = getInitializedResult();
ComponentNameConstructor compName = getVerifierContext().getComponentNameConstructor();
boolean oneFound = false;
if (descriptor instanceof EjbSessionDescriptor) {
try {
Context context = getVerifierContext();
ClassLoader jcl = context.getClassLoader();
Class c =
Class.forName(
descriptor.getEjbClassName(), false, getVerifierContext().getClassLoader());
// walk up the class tree
do {
Class[] interfaces = c.getInterfaces();
for (int i = 0; i < interfaces.length; i++) {
if (interfaces[i].getName().equals("javax.ejb.SessionSynchronization")) {
oneFound = true;
break;
}
}
} while ((c = c.getSuperclass()) != null);
} catch (ClassNotFoundException e) {
Verifier.debug(e);
addErrorDetails(result, compName);
result.failed(
smh.getLocalString(
getClass().getName() + ".failedException1",
"Error: [ {0} ] class not found.",
new Object[] {descriptor.getEjbClassName()}));
return result;
}
// If an enterprise bean implements the javax.ejb.SessionSynchronization
// interface, the Application Assembler can specify only the following
// values for the transaction attributes of the bean's methods:
// Required, RequiresNew, Mandatory
if (oneFound) {
String transactionAttribute = "";
ContainerTransaction containerTransaction = null;
boolean oneFailed = false;
if (!descriptor.getMethodContainerTransactions().isEmpty()) {
for (Enumeration ee = descriptor.getMethodContainerTransactions().keys();
ee.hasMoreElements(); ) {
MethodDescriptor methodDescriptor = (MethodDescriptor) ee.nextElement();
containerTransaction =
(ContainerTransaction)
descriptor.getMethodContainerTransactions().get(methodDescriptor);
if (!(containerTransaction != null && properAttribDefined(containerTransaction))) {
transactionAttribute = containerTransaction.getTransactionAttribute();
addErrorDetails(result, compName);
result.failed(
smh.getLocalString(
getClass().getName() + ".failed",
"Error: TransactionAttribute [ {0} ] for method [ {1} ] is not valid.",
new Object[] {transactionAttribute, methodDescriptor.getName()}));
}
}
}
}
}
if (result.getStatus() != Result.FAILED) {
addGoodDetails(result, compName);
result.passed(
smh.getLocalString(
getClass().getName() + ".passed",
"TransactionAttributes are defined properly for the bean"));
}
return result;
}
/**
* Entity Bean's ejbCreate(...) methods return test. Each entity Bean class may define zero or
* more ejbCreate(...) methods. The number and signatures of a entity Bean's create methods are
* specific to each EJB class. The method signatures must follow these rules:
*
* <p>The method name must be ejbCreate.
*
* <p>The return type must be primary key type.
*
* @param descriptor the Enterprise Java Bean deployment descriptor
* @return <code>Result</code> the results for this assertion
*/
public Result check(EjbDescriptor descriptor) {
Result result = getInitializedResult();
ComponentNameConstructor compName = getVerifierContext().getComponentNameConstructor();
if (descriptor instanceof EjbEntityDescriptor) {
String persistence = ((EjbEntityDescriptor) descriptor).getPersistenceType();
if (EjbEntityDescriptor.BEAN_PERSISTENCE.equals(persistence)) {
boolean oneFailed = false;
boolean oneWarning = false;
int foundAtLeastOne = 0;
try {
Context context = getVerifierContext();
ClassLoader jcl = context.getClassLoader();
Class c =
Class.forName(
descriptor.getEjbClassName(), false, getVerifierContext().getClassLoader());
String primaryKeyType = ((EjbEntityDescriptor) descriptor).getPrimaryKeyClassName();
boolean ejbCreateFound = false;
boolean returnsPrimaryKeyType = false;
// start do while loop here....
do {
Method[] methods = c.getDeclaredMethods();
for (int i = 0; i < methods.length; i++) {
// reset flags from last time thru loop
ejbCreateFound = false;
returnsPrimaryKeyType = false;
// The method name must be ejbCreate.
if (methods[i].getName().startsWith("ejbCreate")) {
foundAtLeastOne++;
ejbCreateFound = true;
// The return type must be primary key type.
Class rt = methods[i].getReturnType();
if (rt.getName().equals(primaryKeyType)) {
returnsPrimaryKeyType = true;
}
// now display the appropriate results for this particular ejbCreate
// method
if (ejbCreateFound && !returnsPrimaryKeyType) {
if (primaryKeyType.equals("java.lang.Object")) {
oneWarning = true;
result.addWarningDetails(
smh.getLocalString(
"tests.componentNameConstructor",
"For [ {0} ]",
new Object[] {compName.toString()}));
result.addWarningDetails(
smh.getLocalString(
getClass().getName() + ".debug1",
"For EJB Class [ {0} ] method [ {1} ]",
new Object[] {descriptor.getEjbClassName(), methods[i].getName()}));
result.addWarningDetails(
smh.getLocalString(
getClass().getName() + ".warning",
"Warning: An [ {0} ] method was found, but [ {1} ] method has [ {2} ] return type. Deployment descriptor primary key type [ {3} ]. Definition of the primary key type is deferred to deployment time ?",
new Object[] {
methods[i].getName(),
methods[i].getName(),
methods[i].getReturnType().getName(),
primaryKeyType
}));
} else {
oneFailed = true;
result.addErrorDetails(
smh.getLocalString(
"tests.componentNameConstructor",
"For [ {0} ]",
new Object[] {compName.toString()}));
result.addErrorDetails(
smh.getLocalString(
getClass().getName() + ".debug1",
"For EJB Class [ {0} ] method [ {1} ]",
new Object[] {descriptor.getEjbClassName(), methods[i].getName()}));
result.addErrorDetails(
smh.getLocalString(
getClass().getName() + ".failed",
"Error: An [ {0} ] method was found, but [ {1} ] method has illegal return value. [ {2} ] methods must return primary key type [ {3} ].",
new Object[] {
methods[i].getName(),
methods[i].getName(),
methods[i].getName(),
primaryKeyType
}));
break;
}
}
}
}
if (oneFailed == true) break;
} while (((c = c.getSuperclass()) != null) && (foundAtLeastOne == 0));
if (foundAtLeastOne == 0) {
result.addNaDetails(
smh.getLocalString(
"tests.componentNameConstructor",
"For [ {0} ]",
new Object[] {compName.toString()}));
result.notApplicable(
smh.getLocalString(
getClass().getName() + ".notApplicable0",
"[ {0} ] does not declare any ejbCreate(...) methods.",
new Object[] {descriptor.getEjbClassName()}));
}
if (oneFailed == false && foundAtLeastOne > 0) {
result.addGoodDetails(
smh.getLocalString(
"tests.componentNameConstructor",
"For [ {0} ]",
new Object[] {compName.toString()}));
result.addGoodDetails(
smh.getLocalString(
getClass().getName() + ".debug1",
"For EJB Class [ {0} ]",
new Object[] {descriptor.getEjbClassName()}));
result.addGoodDetails(
smh.getLocalString(
getClass().getName() + ".passed",
"[ {0} ] properly declares ejbCreate<method> method to return primary key type [ {1} ].",
new Object[] {descriptor.getEjbClassName(), primaryKeyType}));
}
} catch (ClassNotFoundException e) {
Verifier.debug(e);
result.addErrorDetails(
smh.getLocalString(
"tests.componentNameConstructor",
"For [ {0} ]",
new Object[] {compName.toString()}));
result.failed(
smh.getLocalString(
getClass().getName() + ".failedException",
"Error: [ {0} ] class not found.",
new Object[] {descriptor.getEjbClassName()}));
oneFailed = true;
}
if (oneFailed) {
result.setStatus(result.FAILED);
} else if (foundAtLeastOne == 0) {
result.setStatus(result.NOT_APPLICABLE);
} else {
if (oneWarning) {
result.setStatus(result.WARNING);
} else {
result.setStatus(result.PASSED);
}
}
return result;
} else { // if (CONTAINER_PERSISTENCE.equals(persistence)) {
result.addNaDetails(
smh.getLocalString(
"tests.componentNameConstructor",
"For [ {0} ]",
new Object[] {compName.toString()}));
result.notApplicable(
smh.getLocalString(
getClass().getName() + ".notApplicable1",
"Expected [ {0} ] managed persistence, but [ {1} ] bean has [ {2} ] managed persistence.",
new Object[] {
EjbEntityDescriptor.BEAN_PERSISTENCE, descriptor.getName(), persistence
}));
return result;
}
} else {
result.addNaDetails(
smh.getLocalString(
"tests.componentNameConstructor", "For [ {0} ]", new Object[] {compName.toString()}));
result.notApplicable(
smh.getLocalString(
getClass().getName() + ".notApplicable",
"[ {0} ] expected {1} bean, but called with {2} bean.",
new Object[] {getClass(), "Entity", "Session"}));
return result;
}
}
/**
* Entity bean's Primary Key Class test. If the enterprise bean is a Entity Bean, the Bean
* provider specifies the fully qualified name of the Entity bean's primary key class in the
* "primary-class" element. The Bean provider 'must' specify the primary key class for an Entity
* with bean managed persistence, and 'may' (but is not required to) specify the primary key class
* for an Entity with Container-managed persistence.
*
* @param descriptor the Enterprise Java Bean deployment descriptor
* @return <code>Result</code> the results for this assertion
*/
public Result check(EjbDescriptor descriptor) {
Result result = getInitializedResult();
ComponentNameConstructor compName = getVerifierContext().getComponentNameConstructor();
if (descriptor instanceof EjbEntityDescriptor) {
String persistence = ((EjbEntityDescriptor) descriptor).getPersistenceType();
if (EjbEntityDescriptor.BEAN_PERSISTENCE.equals(persistence)) {
logger.log(
Level.FINE,
getClass().getName() + ".debug1",
new Object[] {descriptor.getName(), "bean"});
String primkey = ((EjbEntityDescriptor) descriptor).getPrimaryKeyClassName();
if (!primkey.equals("java.lang.String")) {
try {
Class c = Class.forName(primkey, false, getVerifierContext().getClassLoader());
result.addGoodDetails(
smh.getLocalString(
"tests.componentNameConstructor",
"For [ {0} ]",
new Object[] {compName.toString()}));
result.passed(
smh.getLocalString(
getClass().getName() + ".passed",
"Primary Key Class [ {0} ] exist and is loadable",
new Object[] {primkey}));
} catch (Exception e) {
Verifier.debug(e);
result.addErrorDetails(
smh.getLocalString(
"tests.componentNameConstructor",
"For [ {0} ]",
new Object[] {compName.toString()}));
result.failed(
smh.getLocalString(
getClass().getName() + ".failedException",
"Error: Loading Primary Key Class [ {0} ]",
new Object[] {primkey}));
return result;
}
} else {
result.addGoodDetails(
smh.getLocalString(
"tests.componentNameConstructor",
"For [ {0} ]",
new Object[] {compName.toString()}));
result.passed(
smh.getLocalString(
getClass().getName() + ".passed1",
"Primary Key Class is [ {0} ]",
new Object[] {primkey}));
}
return result;
} else if (EjbEntityDescriptor.CONTAINER_PERSISTENCE.equals(persistence)) {
result.addNaDetails(
smh.getLocalString(
"tests.componentNameConstructor",
"For [ {0} ]",
new Object[] {compName.toString()}));
result.notApplicable(
smh.getLocalString(
getClass().getName() + ".notApplicable1",
"Entity Bean [ {0} ] with [ {1} ] managed persistence, primkey optional.",
new Object[] {descriptor.getName(), persistence}));
return result;
} else {
result.addNaDetails(
smh.getLocalString(
"tests.componentNameConstructor",
"For [ {0} ]",
new Object[] {compName.toString()}));
result.notApplicable(
smh.getLocalString(
getClass().getName() + ".notApplicable2",
"Expected [ {0} ] managed persistence, but [ {1} ] bean has [ {2} ] managed persistence.",
new Object[] {
EjbEntityDescriptor.BEAN_PERSISTENCE, descriptor.getName(), persistence
}));
return result;
}
} else {
result.addNaDetails(
smh.getLocalString(
"tests.componentNameConstructor", "For [ {0} ]", new Object[] {compName.toString()}));
result.notApplicable(
smh.getLocalString(
getClass().getName() + ".notApplicable",
"[ {0} ] expected {1} bean, but called with {2} bean.",
new Object[] {getClass(), "Entity", "Session"}));
return result;
}
}
/**
* Entity Bean's ejbPostCreate(...) methods test. Each entity Bean class may define zero or more
* ejbPostCreate(...) methods. The number and signatures of a entity Bean's create methods are
* specific to each EJB class. The method signatures must follow these rules:
*
* <p>The method name must be ejbPostCreate.
*
* <p>The method must not be declared as static.
*
* @param descriptor the Enterprise Java Bean deployment descriptor
* @return <code>Result</code> the results for this assertion
*/
public Result check(EjbDescriptor descriptor) {
Result result = getInitializedResult();
ComponentNameConstructor compName = getVerifierContext().getComponentNameConstructor();
if (descriptor instanceof EjbEntityDescriptor) {
boolean oneFailed = false;
int foundAtLeastOne = 0;
try {
Context context = getVerifierContext();
ClassLoader jcl = context.getClassLoader();
Class c =
Class.forName(
descriptor.getEjbClassName(), false, getVerifierContext().getClassLoader());
boolean ejbPostCreateFound = false;
boolean isStatic = false;
// start do while loop here....
do {
Method[] methods = c.getDeclaredMethods();
for (int i = 0; i < methods.length; i++) {
// reset flags from last time thru loop
ejbPostCreateFound = false;
isStatic = false;
// The method name must be ejbPostCreate.
if (methods[i].getName().startsWith("ejbPostCreate")) {
foundAtLeastOne++;
ejbPostCreateFound = true;
// The method must not be declared as final or static.
int modifiers = methods[i].getModifiers();
if (Modifier.isStatic(modifiers)) {
isStatic = true;
}
// now display the appropriate results for this particular
// ejbPostCreate method
if (ejbPostCreateFound && (!isStatic)) {
result.addGoodDetails(
smh.getLocalString(
"tests.componentNameConstructor",
"For [ {0} ]",
new Object[] {compName.toString()}));
result.addGoodDetails(
smh.getLocalString(
getClass().getName() + ".debug1",
"For EJB Class [ {0} ] method [ {1} ]",
new Object[] {descriptor.getEjbClassName(), methods[i].getName()}));
result.addGoodDetails(
smh.getLocalString(
getClass().getName() + ".passed",
"[ {0} ] properly declares non-static [ {1} ] method.",
new Object[] {descriptor.getEjbClassName(), methods[i].getName()}));
} else if (ejbPostCreateFound && isStatic) {
oneFailed = true;
result.addErrorDetails(
smh.getLocalString(
"tests.componentNameConstructor",
"For [ {0} ]",
new Object[] {compName.toString()}));
result.addErrorDetails(
smh.getLocalString(
getClass().getName() + ".debug1",
"For EJB Class [ {0} ] ejbPostCreate(...) Method [ {1} ]",
new Object[] {descriptor.getEjbClassName(), methods[i].getName()}));
result.addErrorDetails(
smh.getLocalString(
getClass().getName() + ".failed",
"Error: A static [ {0} ] method was found, but [ {1} ] cannot be declared as static.",
new Object[] {methods[i].getName(), methods[i].getName()}));
}
}
}
} while (((c = c.getSuperclass()) != null) && (foundAtLeastOne == 0));
if (foundAtLeastOne == 0) {
result.addNaDetails(
smh.getLocalString(
"tests.componentNameConstructor",
"For [ {0} ]",
new Object[] {compName.toString()}));
result.notApplicable(
smh.getLocalString(
getClass().getName() + ".notApplicable1",
"[ {0} ] does not declare any ejbPostCreate(...) methods.",
new Object[] {descriptor.getEjbClassName()}));
}
} catch (ClassNotFoundException e) {
Verifier.debug(e);
result.addErrorDetails(
smh.getLocalString(
"tests.componentNameConstructor",
"For [ {0} ]",
new Object[] {compName.toString()}));
result.failed(
smh.getLocalString(
getClass().getName() + ".failedException",
"Error: [ {0} ] class not found.",
new Object[] {descriptor.getEjbClassName()}));
oneFailed = true;
}
if (oneFailed) {
result.setStatus(result.FAILED);
} else if (foundAtLeastOne == 0) {
result.setStatus(result.NOT_APPLICABLE);
} else {
result.setStatus(result.PASSED);
}
return result;
} else {
result.addNaDetails(
smh.getLocalString(
"tests.componentNameConstructor", "For [ {0} ]", new Object[] {compName.toString()}));
result.notApplicable(
smh.getLocalString(
getClass().getName() + ".notApplicable",
"[ {0} ] expected {1} bean, but called with {2} bean.",
new Object[] {getClass(), "Entity", "Session"}));
return result;
}
}
/**
* Entity bean's Primary Key Class type test. If the enterprise bean is a Entity Bean, the Bean
* provider specifies the fully qualified name of the Entity bean's primary key class in the
* "primary-class" element. The Bean provider 'must' specify the primary key class for an Entity
* with bean managed persistence, and 'may' (but is not required to) specify the primary key class
* for an Entity with Container-managed persistence.
*
* <p>Special case: Unknown primary key class In special situations, the Bean Provider may choose
* not to specify the primary key class for an entity bean with container-managed persistence.
* This case happens if the Bean Provider wants to allow the Deployer to select the primary key
* fields at deployment time. The Deployer uses instructions supplied by the Bean Provider (these
* instructions are beyond the scope of the EJB spec.) to define a suitable primary key class.
*
* <p>In this special case, the type of the argument of the findByPrimaryKey method must be
* declared as java.lang.Object, and the return value of ejbCreate() must be declared as
* java.lang.Object. The Bean Provider must specify the primary key class in the deployment
* descriptor as of the type java.lang.Object.
*
* <p>The primary key class is specified at deployment time when the Bean Provider develops
* enterprise beans that is intended to be used with multiple back-ends that provide persistence,
* and when these multiple back-ends require different primary key structures.
*
* @param descriptor the Enterprise Java Bean deployment descriptor
* @return <code>Result</code> the results for this assertion
*/
public Result check(EjbDescriptor descriptor) {
Result result = getInitializedResult();
ComponentNameConstructor compName = getVerifierContext().getComponentNameConstructor();
if (descriptor instanceof EjbEntityDescriptor) {
String persistence = ((EjbEntityDescriptor) descriptor).getPersistenceType();
if (EjbEntityDescriptor.CONTAINER_PERSISTENCE.equals(persistence)) {
String primkey = ((EjbEntityDescriptor) descriptor).getPrimaryKeyClassName();
// primkey can be not set, via setting xml element
// <prim-key-class> to "java.lang.Object"
if (primkey.equals("java.lang.Object")) {
result.addGoodDetails(
smh.getLocalString(
"tests.componentNameConstructor",
"For [ {0} ]",
new Object[] {compName.toString()}));
result.passed(
smh.getLocalString(
getClass().getName() + ".passed",
"Properly defined primary key class type [ {0} ]",
new Object[] {"java.lang.Object"}));
} else {
result.addNaDetails(
smh.getLocalString(
"tests.componentNameConstructor",
"For [ {0} ]",
new Object[] {compName.toString()}));
result.notApplicable(
smh.getLocalString(
getClass().getName() + ".notApplicable1",
"Primary Key Class is [ {0} ]",
new Object[] {primkey}));
}
return result;
} else if (EjbEntityDescriptor.BEAN_PERSISTENCE.equals(persistence)) {
result.addNaDetails(
smh.getLocalString(
"tests.componentNameConstructor",
"For [ {0} ]",
new Object[] {compName.toString()}));
result.notApplicable(
smh.getLocalString(
getClass().getName() + ".notApplicable2",
"Entity Bean with [ {0} ] managed persistence, primkey mandatory.",
new Object[] {persistence}));
return result;
} else {
result.addNaDetails(
smh.getLocalString(
"tests.componentNameConstructor",
"For [ {0} ]",
new Object[] {compName.toString()}));
result.notApplicable(
smh.getLocalString(
getClass().getName() + ".notApplicable3",
"Expected [ {0} ] managed persistence, but [ {1} ] bean has [ {2} ] managed persistence.",
new Object[] {
EjbEntityDescriptor.CONTAINER_PERSISTENCE, descriptor.getName(), persistence
}));
return result;
}
} else {
result.addNaDetails(
smh.getLocalString(
"tests.componentNameConstructor", "For [ {0} ]", new Object[] {compName.toString()}));
result.notApplicable(
smh.getLocalString(
getClass().getName() + ".notApplicable",
"[ {0} ] expected {1} bean, but called with {2} bean.",
new Object[] {getClass(), "Entity", "Session"}));
return result;
}
}
/**
* Container-managed fields valid type test.
*
* <p>The Bean Provider must ensure that the Java types assigned to the container-managed fields
* are one of the following: Java primitive types, Java serializable types, or references to
* enterprise beans' remote or home interfaces.
*
* @param descriptor the Enterprise Java Bean deployment descriptor
* @return <code>Result</code> the results for this assertion
*/
public Result check(EjbDescriptor descriptor) {
Result result = getInitializedResult();
ComponentNameConstructor compName = getVerifierContext().getComponentNameConstructor();
if (descriptor instanceof EjbEntityDescriptor) {
String persistentType = ((EjbEntityDescriptor) descriptor).getPersistenceType();
if (EjbEntityDescriptor.CONTAINER_PERSISTENCE.equals(persistentType)) {
// this test apply only to 1.x cmp beans, in 2.x fields are virtual fields only
if (EjbCMPEntityDescriptor.CMP_1_1
!= ((EjbCMPEntityDescriptor) descriptor).getCMPVersion()) {
result.addNaDetails(
smh.getLocalString(
"tests.componentNameConstructor",
"For [ {0} ]",
new Object[] {compName.toString()}));
result.notApplicable(
smh.getLocalString(
"com.sun.enterprise.tools.verifier.tests.ejb.entity.cmp2.CMPTest.notApplicable3",
"Test do not apply to this cmp-version of container managed persistence EJBs"));
return result;
}
VerifierTestContext context = getVerifierContext();
ClassLoader jcl = context.getClassLoader();
// RULE: container-managed fields are one of the following:
// Java primitive types, Java serializable types, or references
// to enterprise beans' remote or home interfaces.
Set persistentFields =
((EjbCMPEntityDescriptor) descriptor).getPersistenceDescriptor().getCMPFields();
Iterator iterator = persistentFields.iterator();
Descriptor persistentField;
Field field;
boolean oneFailed = false;
while (iterator.hasNext()) {
persistentField = (Descriptor) iterator.next();
boolean foundField = false;
try {
Class c =
Class.forName(
descriptor.getEjbClassName(), false, getVerifierContext().getClassLoader());
// start do while loop here....
do {
try {
Field f = c.getDeclaredField(persistentField.getName());
foundField = true;
Class persistentFieldClassType = f.getType();
if (descriptor.getHomeClassName() != null
&& !"".equals(descriptor.getHomeClassName())
&& descriptor.getRemoteClassName() != null
&& !"".equals(descriptor.getRemoteClassName())) {
if (RmiIIOPUtils.isPersistentFieldTypeValid(
persistentFieldClassType,
descriptor.getHomeClassName(),
descriptor.getRemoteClassName())) {
result.addGoodDetails(
smh.getLocalString(
"tests.componentNameConstructor",
"For [ {0} ]",
new Object[] {compName.toString()}));
result.addGoodDetails(
smh.getLocalString(
getClass().getName() + ".passed",
"Valid type assigned to container managed field [ {0} ] found in bean [ {1} ]",
new Object[] {((Descriptor) persistentField).getName(), c.getName()}));
} else {
oneFailed = true;
result.addErrorDetails(
smh.getLocalString(
"tests.componentNameConstructor",
"For [ {0} ]",
new Object[] {compName.toString()}));
result.addErrorDetails(
smh.getLocalString(
getClass().getName() + ".failed",
"Error: Invalid type assigned to container managed field [ {0} ] found in bean [ {1} ]",
new Object[] {((Descriptor) persistentField).getName(), c.getName()}));
}
}
if (descriptor.getLocalHomeClassName() != null
&& !"".equals(descriptor.getLocalHomeClassName())
&& descriptor.getLocalClassName() != null
&& !"".equals(descriptor.getLocalClassName())) {
if (RmiIIOPUtils.isPersistentFieldTypeValid(
persistentFieldClassType,
descriptor.getLocalHomeClassName(),
descriptor.getLocalClassName())) {
result.addGoodDetails(
smh.getLocalString(
"tests.componentNameConstructor",
"For [ {0} ]",
new Object[] {compName.toString()}));
result.addGoodDetails(
smh.getLocalString(
getClass().getName() + ".passed",
"Valid type assigned to container managed field [ {0} ] found in bean [ {1} ]",
new Object[] {((Descriptor) persistentField).getName(), c.getName()}));
} else {
oneFailed = true;
result.addErrorDetails(
smh.getLocalString(
"tests.componentNameConstructor",
"For [ {0} ]",
new Object[] {compName.toString()}));
result.addErrorDetails(
smh.getLocalString(
getClass().getName() + ".failed",
"Error: Invalid type assigned to container managed field [ {0} ] found in bean [ {1} ]",
new Object[] {((Descriptor) persistentField).getName(), c.getName()}));
}
}
} catch (NoSuchFieldException e) {
foundField = false;
}
} while (((c = c.getSuperclass()) != null) && (!foundField));
if (!foundField) {
if (!oneFailed) {
oneFailed = true;
}
result.addErrorDetails(
smh.getLocalString(
"tests.componentNameConstructor",
"For [ {0} ]",
new Object[] {compName.toString()}));
result.addErrorDetails(
smh.getLocalString(
getClass().getName() + ".failedException1",
"Error: field [ {0} ] not found in class [ {1} ]",
new Object[] {
((Descriptor) persistentField).getName(), descriptor.getEjbClassName()
}));
}
} catch (ClassNotFoundException e) {
Verifier.debug(e);
result.addErrorDetails(
smh.getLocalString(
"tests.componentNameConstructor",
"For [ {0} ]",
new Object[] {compName.toString()}));
result.failed(
smh.getLocalString(
getClass().getName() + ".failedException",
"Error: [ {0} ] class not found.",
new Object[] {descriptor.getEjbClassName()}));
}
}
if (oneFailed) {
result.setStatus(Result.FAILED);
} else {
result.setStatus(Result.PASSED);
}
} else { // if (BEAN_PERSISTENCE.equals(persistentType))
result.addNaDetails(
smh.getLocalString(
"tests.componentNameConstructor",
"For [ {0} ]",
new Object[] {compName.toString()}));
result.notApplicable(
smh.getLocalString(
getClass().getName() + ".notApplicable1",
"Expected persistence type [ {0} ], but [ {1} ] bean has persistence type [ {2} ]",
new Object[] {
EjbEntityDescriptor.CONTAINER_PERSISTENCE, descriptor.getName(), persistentType
}));
}
return result;
} else {
result.addNaDetails(
smh.getLocalString(
"tests.componentNameConstructor", "For [ {0} ]", new Object[] {compName.toString()}));
result.notApplicable(
smh.getLocalString(
getClass().getName() + ".notApplicable",
"[ {0} ] expected {1} bean, but called with {2} bean.",
new Object[] {getClass(), "Entity", "Session"}));
return result;
}
}
/**
* The alt-dd element specifies a URI to the post-assembly deployment descriptor relative to the
* root of the application
*
* @param descriptor the Application deployment descriptor
* @return <code>Result</code> the results for this assertion
*/
public Result check(Application descriptor) {
Result result = getInitializedResult();
if (descriptor.getEjbBundleDescriptors().size() > 0) {
boolean oneFailed = false;
int na = 0;
for (Iterator itr = descriptor.getEjbBundleDescriptors().iterator(); itr.hasNext(); ) {
EjbBundleDescriptor ejbd = (EjbBundleDescriptor) itr.next();
if (ejbd.getModuleDescriptor().getAlternateDescriptor() != null) {
if (!(ejbd.getModuleDescriptor().getAlternateDescriptor().equals(""))) {
JarFile jarFile = null;
InputStream deploymentEntry = null;
// File f = null;
// if (Verifier.getEarFile() != null)
// f = new File(Verifier.getEarFile());
try {
// if (f==null){
String uri = getAbstractArchiveUri(descriptor);
// try {
FileArchive arch = new FileArchive();
arch.open(uri);
deploymentEntry = arch.getEntry(ejbd.getModuleDescriptor().getAlternateDescriptor());
// }catch (Exception e) { }
// }else{
//
// jarFile = new JarFile(f);
// ZipEntry deploymentEntry1 =
// jarFile.getEntry(ejbd.getModuleDescriptor().getAlternateDescriptor());
// if (deploymentEntry1 != null){
// deploymentEntry =
// jarFile.getInputStream(deploymentEntry1);
// }
// }
if (deploymentEntry != null) {
result.addGoodDetails(
smh.getLocalString(
getClass().getName() + ".passed",
"Found alternate EJB deployment descriptor URI file [ {0} ] within [ {1} ]",
new Object[] {
ejbd.getModuleDescriptor().getAlternateDescriptor(), ejbd.getName()
}));
} else {
if (!oneFailed) {
oneFailed = true;
}
result.addErrorDetails(
smh.getLocalString(
getClass().getName() + ".failed",
"Error: No alternate EJB deployment descriptor URI file found, looking for [ {0} ] within [ {1} ]",
new Object[] {
ejbd.getModuleDescriptor().getAlternateDescriptor(), ejbd.getName()
}));
}
// jarFile.close();
} catch (FileNotFoundException ex) {
Verifier.debug(ex);
if (!oneFailed) {
oneFailed = true;
}
result.failed(
smh.getLocalString(
getClass().getName() + ".failedException",
"Error: File not found trying to read deployment descriptor file [ {0} ] within [ {1} ]",
new Object[] {
ejbd.getModuleDescriptor().getAlternateDescriptor(), ejbd.getName()
}));
} catch (IOException ex) {
Verifier.debug(ex);
if (!oneFailed) {
oneFailed = true;
}
result.failed(
smh.getLocalString(
getClass().getName() + ".failedException1",
"Error: IO Error trying to read deployment descriptor file [ {0} ] within [ {1} ]",
new Object[] {
ejbd.getModuleDescriptor().getAlternateDescriptor(), ejbd.getName()
}));
} finally {
try {
if (deploymentEntry != null) deploymentEntry.close();
} catch (Exception x) {
}
}
}
} else {
na++;
result.notApplicable(
smh.getLocalString(
getClass().getName() + ".notApplicable1",
"There is no java EJB alternative deployment descriptor in [ {0} ]",
new Object[] {ejbd.getName()}));
}
}
if (oneFailed) {
result.setStatus(Result.FAILED);
} else if (na == descriptor.getEjbBundleDescriptors().size()) {
result.setStatus(Result.NOT_APPLICABLE);
} else {
result.setStatus(Result.PASSED);
}
} else {
result.notApplicable(
smh.getLocalString(
getClass().getName() + ".notApplicable",
"There are no EJB components in application [ {0} ]",
new Object[] {descriptor.getName()}));
}
return result;
}
public static boolean checkWebProperties(
WebProperty[] webProps, Result result, WebBundleDescriptor descriptor, Object obj) {
String compName = result.getComponentName();
String name;
String value;
boolean oneFailed = false;
String[] names = null;
if (webProps.length > 0) {
names = new String[webProps.length];
for (int rep = 0; rep < webProps.length; rep++) {
name =
webProps[rep].getAttributeValue(
WebProperty.NAME); // *************needs verification from ko]umar Sg
value = webProps[rep].getAttributeValue(WebProperty.VALUE);
names[rep] = name;
if (name != null && value != null && name.length() != 0 && value.length() != 0) {
// check if the name already exist in this web-prop
boolean isDuplicate = false;
for (int rep1 = 0; rep1 < rep; rep1++) {
if (name.equals(names[rep1])) {
isDuplicate = true;
break;
}
}
if (!isDuplicate) {
result.addGoodDetails(
smh.getLocalString(
"tests.componentNameConstructor", "For [ {0} ]", new Object[] {compName}));
result.passed(
smh.getLocalString(
obj.getClass().getName() + ".passed",
"PASSED [AS-WEB property] Proper web property with name [ {0} ] and value [ {1} ] defined.",
new Object[] {name, value}));
} else {
if (!oneFailed) oneFailed = true;
result.addErrorDetails(
smh.getLocalString(
"tests.componentNameConstructor", "For [ {0} ]", new Object[] {compName}));
result.failed(
smh.getLocalString(
obj.getClass().getName() + ".failed2",
"FAILED [AS-WEB property] name [ {0} ] and value [ {1} ], the name must be unique in the entire list of web property.",
new Object[] {name, value}));
}
} else {
if (!oneFailed) oneFailed = true;
result.addErrorDetails(
smh.getLocalString(
"tests.componentNameConstructor", "For [ {0} ]", new Object[] {compName}));
result.failed(
smh.getLocalString(
obj.getClass().getName() + ".failed1",
"FAILED [AS-WEB property] name [ {0} ] and value [ {1} ], attributes must be of finite length.",
new Object[] {name, value}));
}
}
}
return oneFailed;
}
/**
* Test for each message-listener , that "activationspec-class" implements
* "javax.resource.spi.ActivationSpec".
*
* @param descriptor deployment descriptor for the rar file
* @return result object containing the result of the individual test performed
*/
public Result check(ConnectorDescriptor descriptor) {
Result result = getInitializedResult();
ComponentNameConstructor compName = getVerifierContext().getComponentNameConstructor();
if (!descriptor.getInBoundDefined()) {
result.addNaDetails(
smh.getLocalString(
"tests.componentNameConstructor", "For [ {0} ]", new Object[] {compName.toString()}));
result.notApplicable(
smh.getLocalString(
"com.sun.enterprise.tools.verifier.tests.connector.messageinflow.notApp",
"Resource Adapter does not provide inbound communication"));
return result;
}
InboundResourceAdapter ra = descriptor.getInboundResourceAdapter();
Set msgListeners = ra.getMessageListeners();
boolean oneFailed = false;
Iterator iter = msgListeners.iterator();
while (iter.hasNext()) {
MessageListener msgListener = (MessageListener) iter.next();
String impl = msgListener.getActivationSpecClass();
Class implClass = null;
try {
implClass = Class.forName(impl, false, getVerifierContext().getClassLoader());
} catch (ClassNotFoundException e) {
result.addErrorDetails(
smh.getLocalString(
"tests.componentNameConstructor",
"For [ {0} ]",
new Object[] {compName.toString()}));
result.failed(
smh.getLocalString(
"com.sun.enterprise.tools.verifier.tests.connector.messageinflow.nonexist",
"Error: The class [ {0} ] as defined under activationspec-class in the deployment descriptor does not exist",
new Object[] {impl}));
return result;
}
if (!isImplementorOf(implClass, "javax.resource.spi.ActivationSpec")) {
oneFailed = true;
result.addErrorDetails(
smh.getLocalString(
"tests.componentNameConstructor",
"For [ {0} ]",
new Object[] {compName.toString()}));
result.failed(
smh.getLocalString(
getClass().getName() + ".failed",
"Error: activationspec-class [ {0} ] does not implement javax.resource.spi.ActivationSpec.",
new Object[] {impl}));
return result;
}
}
if (!oneFailed) {
result.addGoodDetails(
smh.getLocalString(
"tests.componentNameConstructor", "For [ {0} ]", new Object[] {compName.toString()}));
result.passed(
smh.getLocalString(
getClass().getName() + ".passed",
"Success: all activationspec-class implement javax.resource.spi.ActivationSpec"));
}
return result;
}
/**
* Define ejbFindByPrimaryKey method arguments test.
*
* <p>Every entity enterprise Bean class must define the ejbFindByPrimaryKey method.
*
* <p>The methods arguments types must be legal types for RMI-IIOP.
*
* @param descriptor the Enterprise Java Bean deployment descriptor
* @return <code>Result</code> the results for this assertion
*/
public Result check(EjbDescriptor descriptor) {
Result result = getInitializedResult();
ComponentNameConstructor compName = getVerifierContext().getComponentNameConstructor();
if (descriptor instanceof EjbEntityDescriptor) {
String persistentType = ((EjbEntityDescriptor) descriptor).getPersistenceType();
if (EjbEntityDescriptor.BEAN_PERSISTENCE.equals(persistentType)) {
Class[] ejbFinderMethodParameterTypes;
boolean ejbFindByPrimaryKeyMethodFound = false;
boolean oneFailed = false;
boolean isLegalRMIIIOP = false;
try {
// retrieve the EJB Class Methods
Context context = getVerifierContext();
ClassLoader jcl = context.getClassLoader();
Class EJBClass =
Class.forName(
descriptor.getEjbClassName(), false, getVerifierContext().getClassLoader());
// start do while loop here....
do {
Method[] ejbFinderMethods = EJBClass.getDeclaredMethods();
for (int j = 0; j < ejbFinderMethods.length; ++j) {
if (ejbFinderMethods[j].getName().equals("ejbFindByPrimaryKey")) {
// Every entity enterprise Bean class must define the
// ejbFindByPrimaryKey method.
ejbFindByPrimaryKeyMethodFound = true;
// The methods arguments types must be legal types for RMI-IIOP.
ejbFinderMethodParameterTypes = ejbFinderMethods[j].getParameterTypes();
if (RmiIIOPUtils.isValidRmiIIOPParameters(ejbFinderMethodParameterTypes)) {
// these method parameters are valid, continue
isLegalRMIIIOP = true;
}
if (ejbFindByPrimaryKeyMethodFound && isLegalRMIIIOP) {
result.addGoodDetails(
smh.getLocalString(
"tests.componentNameConstructor",
"For [ {0} ]",
new Object[] {compName.toString()}));
result.addGoodDetails(
smh.getLocalString(
getClass().getName() + ".debug1",
"For EJB Class [ {0} ] Finder Method [ {1} ]",
new Object[] {EJBClass.getName(), ejbFinderMethods[j].getName()}));
result.addGoodDetails(
smh.getLocalString(
getClass().getName() + ".passed",
"An [ {0} ] method with valid RMI-IIOP argument types was found.",
new Object[] {ejbFinderMethods[j].getName()}));
} else if (ejbFindByPrimaryKeyMethodFound && (!isLegalRMIIIOP)) {
oneFailed = true;
result.addErrorDetails(
smh.getLocalString(
"tests.componentNameConstructor",
"For [ {0} ]",
new Object[] {compName.toString()}));
result.addErrorDetails(
smh.getLocalString(
getClass().getName() + ".debug1",
"For EJB Class [ {0} ] Finder Method [ {1} ]",
new Object[] {EJBClass.getName(), ejbFinderMethods[j].getName()}));
result.addErrorDetails(
smh.getLocalString(
getClass().getName() + ".failed",
"Error: An [ {0} ] method was found, but [ {1} ] method has illegal parameter values. [ {2} ] methods arguments types must be legal types for RMI-IIOP.",
new Object[] {
ejbFinderMethods[j].getName(),
ejbFinderMethods[j].getName(),
ejbFinderMethods[j].getName()
}));
}
// found one, and there should only be one, break out
break;
}
}
} while (((EJBClass = EJBClass.getSuperclass()) != null)
&& (!ejbFindByPrimaryKeyMethodFound));
if (!ejbFindByPrimaryKeyMethodFound) {
oneFailed = true;
result.addErrorDetails(
smh.getLocalString(
"tests.componentNameConstructor",
"For [ {0} ]",
new Object[] {compName.toString()}));
result.addErrorDetails(
smh.getLocalString(
getClass().getName() + ".debug3",
"For EJB Class [ {0} ]",
new Object[] {descriptor.getEjbClassName()}));
result.addErrorDetails(
smh.getLocalString(
getClass().getName() + ".failed1",
"Error: No ejbFindByPrimaryKey method was found in bean class."));
}
} catch (ClassNotFoundException e) {
Verifier.debug(e);
result.addErrorDetails(
smh.getLocalString(
"tests.componentNameConstructor",
"For [ {0} ]",
new Object[] {compName.toString()}));
result.failed(
smh.getLocalString(
getClass().getName() + ".failedException",
"Error: EJB Class [ {0} ] does not exist or is not loadable.",
new Object[] {descriptor.getEjbClassName()}));
oneFailed = true;
}
if (oneFailed) {
result.setStatus(result.FAILED);
} else {
result.setStatus(result.PASSED);
}
} else { // (CONTAINER_PERSISTENCE.equals(persistentType))
result.addNaDetails(
smh.getLocalString(
"tests.componentNameConstructor",
"For [ {0} ]",
new Object[] {compName.toString()}));
result.notApplicable(
smh.getLocalString(
getClass().getName() + ".notApplicable2",
"Expected persistence type [ {0} ], but bean [ {1} ] has persistence type [ {2} ]",
new Object[] {
EjbEntityDescriptor.BEAN_PERSISTENCE, descriptor.getName(), persistentType
}));
}
return result;
} else {
result.addNaDetails(
smh.getLocalString(
"tests.componentNameConstructor", "For [ {0} ]", new Object[] {compName.toString()}));
result.notApplicable(
smh.getLocalString(
getClass().getName() + ".notApplicable",
"[ {0} ] expected {1} bean, but called with {2} bean.",
new Object[] {getClass(), "Entity", "Session"}));
return result;
}
}
