@Bean(name = AnnotationConfigUtils.ASYNC_ANNOTATION_PROCESSOR_BEAN_NAME)
 @Role(BeanDefinition.ROLE_INFRASTRUCTURE)
 public AsyncAnnotationBeanPostProcessor asyncAdvisor() {
   Assert.notNull(this.enableAsync, "@EnableAsync annotation metadata was not injected");
   AsyncAnnotationBeanPostProcessor bpp = new AsyncAnnotationBeanPostProcessor();
   Class<? extends Annotation> customAsyncAnnotation = enableAsync.getClass("annotation");
   if (customAsyncAnnotation != AnnotationUtils.getDefaultValue(EnableAsync.class, "annotation")) {
     bpp.setAsyncAnnotationType(customAsyncAnnotation);
   }
   if (this.executor != null) {
     bpp.setExecutor(this.executor);
   }
   bpp.setProxyTargetClass(this.enableAsync.getBoolean("proxyTargetClass"));
   bpp.setOrder(this.enableAsync.<Integer>getNumber("order"));
   return bpp;
 }
  /** Match the given qualifier annotation against the candidate bean definition. */
  protected boolean checkQualifier(
      BeanDefinitionHolder bdHolder, Annotation annotation, TypeConverter typeConverter) {

    Class<? extends Annotation> type = annotation.annotationType();
    RootBeanDefinition bd = (RootBeanDefinition) bdHolder.getBeanDefinition();
    AutowireCandidateQualifier qualifier = bd.getQualifier(type.getName());
    if (qualifier == null) {
      qualifier = bd.getQualifier(ClassUtils.getShortName(type));
    }
    if (qualifier == null) {
      Annotation targetAnnotation = null;
      if (bd.getResolvedFactoryMethod() != null) {
        targetAnnotation = AnnotationUtils.getAnnotation(bd.getResolvedFactoryMethod(), type);
      }
      if (targetAnnotation == null) {
        // look for matching annotation on the target class
        if (this.beanFactory != null) {
          Class<?> beanType = this.beanFactory.getType(bdHolder.getBeanName());
          if (beanType != null) {
            targetAnnotation =
                AnnotationUtils.getAnnotation(ClassUtils.getUserClass(beanType), type);
          }
        }
        if (targetAnnotation == null && bd.hasBeanClass()) {
          targetAnnotation =
              AnnotationUtils.getAnnotation(ClassUtils.getUserClass(bd.getBeanClass()), type);
        }
      }
      if (targetAnnotation != null && targetAnnotation.equals(annotation)) {
        return true;
      }
    }
    Map<String, Object> attributes = AnnotationUtils.getAnnotationAttributes(annotation);
    if (attributes.isEmpty() && qualifier == null) {
      // if no attributes, the qualifier must be present
      return false;
    }
    for (Map.Entry<String, Object> entry : attributes.entrySet()) {
      String attributeName = entry.getKey();
      Object expectedValue = entry.getValue();
      Object actualValue = null;
      // check qualifier first
      if (qualifier != null) {
        actualValue = qualifier.getAttribute(attributeName);
      }
      if (actualValue == null) {
        // fall back on bean definition attribute
        actualValue = bd.getAttribute(attributeName);
      }
      if (actualValue == null
          && attributeName.equals(AutowireCandidateQualifier.VALUE_KEY)
          && expectedValue instanceof String
          && bdHolder.matchesName((String) expectedValue)) {
        // fall back on bean name (or alias) match
        continue;
      }
      if (actualValue == null && qualifier != null) {
        // fall back on default, but only if the qualifier is present
        actualValue = AnnotationUtils.getDefaultValue(annotation, attributeName);
      }
      if (actualValue != null) {
        actualValue = typeConverter.convertIfNecessary(actualValue, expectedValue.getClass());
      }
      if (!expectedValue.equals(actualValue)) {
        return false;
      }
    }
    return true;
  }
/**
 * {@code TestExecutionListener} that provides support for executing tests within transactions by
 * honoring the {@link org.springframework.transaction.annotation.Transactional &#064;Transactional}
 * annotation. Expects a {@link PlatformTransactionManager} bean to be defined in the Spring {@link
 * ApplicationContext} for the test.
 *
 * <p>Changes to the database during a test that is run with {@code @Transactional} will be run
 * within a transaction that will, by default, be automatically <em>rolled back</em> after
 * completion of the test. Test methods that are not annotated with {@code @Transactional} (at the
 * class or method level) will not be run within a transaction.
 *
 * <p>Transactional commit and rollback behavior can be configured via the class-level {@link
 * TransactionConfiguration @TransactionConfiguration} and method-level {@link Rollback @Rollback}
 * annotations.
 *
 * <p>In case there are multiple instances of {@code PlatformTransactionManager} within the test's
 * {@code ApplicationContext}, {@code @TransactionConfiguration} supports configuring the bean name
 * of the {@code PlatformTransactionManager} that should be used to drive transactions.
 * Alternatively, {@link TransactionManagementConfigurer} can be implemented in an {@link
 * org.springframework.context.annotation.Configuration @Configuration} class.
 *
 * <p>When executing transactional tests, it is sometimes useful to be able to execute certain
 * <em>set up</em> or <em>tear down</em> code outside of a transaction. {@code
 * TransactionalTestExecutionListener} provides such support for methods annotated with {@link
 * BeforeTransaction @BeforeTransaction} and {@link AfterTransaction @AfterTransaction}.
 *
 * @author Sam Brannen
 * @author Juergen Hoeller
 * @since 2.5
 * @see TransactionConfiguration
 * @see TransactionManagementConfigurer
 * @see org.springframework.transaction.annotation.Transactional
 * @see org.springframework.test.annotation.Rollback
 * @see BeforeTransaction
 * @see AfterTransaction
 */
public class TransactionalTestExecutionListener extends AbstractTestExecutionListener {

  private static final Log logger = LogFactory.getLog(TransactionalTestExecutionListener.class);

  private static final String DEFAULT_TRANSACTION_MANAGER_NAME =
      (String)
          AnnotationUtils.getDefaultValue(TransactionConfiguration.class, "transactionManager");

  private static final Boolean DEFAULT_DEFAULT_ROLLBACK =
      (Boolean) AnnotationUtils.getDefaultValue(TransactionConfiguration.class, "defaultRollback");

  protected final TransactionAttributeSource attributeSource =
      new AnnotationTransactionAttributeSource();

  private final Map<Method, TransactionContext> transactionContextCache =
      new ConcurrentHashMap<Method, TransactionContext>(8);

  private TransactionConfigurationAttributes configurationAttributes;

  private volatile int transactionsStarted = 0;

  /**
   * If the test method of the supplied {@link TestContext test context} is configured to run within
   * a transaction, this method will run {@link BeforeTransaction &#064;BeforeTransaction methods}
   * and start a new transaction.
   *
   * <p>Note that if a {@code @BeforeTransaction} method fails, any remaining
   * {@code @BeforeTransaction} methods will not be invoked, and a transaction will not be started.
   *
   * @see org.springframework.transaction.annotation.Transactional
   * @see #getTransactionManager(TestContext, String)
   */
  @SuppressWarnings("serial")
  @Override
  public void beforeTestMethod(TestContext testContext) throws Exception {
    final Method testMethod = testContext.getTestMethod();
    Assert.notNull(testMethod, "The test method of the supplied TestContext must not be null");

    if (this.transactionContextCache.remove(testMethod) != null) {
      throw new IllegalStateException(
          "Cannot start new transaction without ending existing transaction: "
              + "Invoke endTransaction() before startNewTransaction().");
    }

    PlatformTransactionManager tm = null;
    TransactionAttribute transactionAttribute =
        this.attributeSource.getTransactionAttribute(testMethod, testContext.getTestClass());

    if (transactionAttribute != null) {
      transactionAttribute =
          new DelegatingTransactionAttribute(transactionAttribute) {

            @Override
            public String getName() {
              return testMethod.getName();
            }
          };

      if (logger.isDebugEnabled()) {
        logger.debug(
            "Explicit transaction definition ["
                + transactionAttribute
                + "] found for test context "
                + testContext);
      }

      if (transactionAttribute.getPropagationBehavior()
          == TransactionDefinition.PROPAGATION_NOT_SUPPORTED) {
        return;
      }

      tm = getTransactionManager(testContext, transactionAttribute.getQualifier());
    }

    if (tm != null) {
      TransactionContext txContext = new TransactionContext(tm, transactionAttribute);
      runBeforeTransactionMethods(testContext);
      startNewTransaction(testContext, txContext);
      this.transactionContextCache.put(testMethod, txContext);
    }
  }

  /**
   * If a transaction is currently active for the test method of the supplied {@link TestContext
   * test context}, this method will end the transaction and run {@link AfterTransaction
   * &#064;AfterTransaction methods}.
   *
   * <p>{@code @AfterTransaction} methods are guaranteed to be invoked even if an error occurs while
   * ending the transaction.
   */
  @Override
  public void afterTestMethod(TestContext testContext) throws Exception {
    Method testMethod = testContext.getTestMethod();
    Assert.notNull(testMethod, "The test method of the supplied TestContext must not be null");

    // If the transaction is still active...
    TransactionContext txContext = this.transactionContextCache.remove(testMethod);
    if (txContext != null && !txContext.transactionStatus.isCompleted()) {
      try {
        endTransaction(testContext, txContext);
      } finally {
        runAfterTransactionMethods(testContext);
      }
    }
  }

  /**
   * Run all {@link BeforeTransaction &#064;BeforeTransaction methods} for the specified {@link
   * TestContext test context}. If one of the methods fails, however, the caught exception will be
   * rethrown in a wrapped {@link RuntimeException}, and the remaining methods will
   * <strong>not</strong> be given a chance to execute.
   *
   * @param testContext the current test context
   */
  protected void runBeforeTransactionMethods(TestContext testContext) throws Exception {
    try {
      List<Method> methods =
          getAnnotatedMethods(testContext.getTestClass(), BeforeTransaction.class);
      Collections.reverse(methods);
      for (Method method : methods) {
        if (logger.isDebugEnabled()) {
          logger.debug(
              "Executing @BeforeTransaction method ["
                  + method
                  + "] for test context "
                  + testContext);
        }
        method.invoke(testContext.getTestInstance());
      }
    } catch (InvocationTargetException ex) {
      logger.error(
          "Exception encountered while executing @BeforeTransaction methods for test context "
              + testContext
              + ".",
          ex.getTargetException());
      ReflectionUtils.rethrowException(ex.getTargetException());
    }
  }

  /**
   * Run all {@link AfterTransaction &#064;AfterTransaction methods} for the specified {@link
   * TestContext test context}. If one of the methods fails, the caught exception will be logged as
   * an error, and the remaining methods will be given a chance to execute. After all methods have
   * executed, the first caught exception, if any, will be rethrown.
   *
   * @param testContext the current test context
   */
  protected void runAfterTransactionMethods(TestContext testContext) throws Exception {
    Throwable afterTransactionException = null;

    List<Method> methods = getAnnotatedMethods(testContext.getTestClass(), AfterTransaction.class);
    for (Method method : methods) {
      try {
        if (logger.isDebugEnabled()) {
          logger.debug(
              "Executing @AfterTransaction method ["
                  + method
                  + "] for test context "
                  + testContext);
        }
        method.invoke(testContext.getTestInstance());
      } catch (InvocationTargetException ex) {
        Throwable targetException = ex.getTargetException();
        if (afterTransactionException == null) {
          afterTransactionException = targetException;
        }
        logger.error(
            "Exception encountered while executing @AfterTransaction method ["
                + method
                + "] for test context "
                + testContext,
            targetException);
      } catch (Exception ex) {
        if (afterTransactionException == null) {
          afterTransactionException = ex;
        }
        logger.error(
            "Exception encountered while executing @AfterTransaction method ["
                + method
                + "] for test context "
                + testContext,
            ex);
      }
    }

    if (afterTransactionException != null) {
      ReflectionUtils.rethrowException(afterTransactionException);
    }
  }

  /**
   * Start a new transaction for the supplied {@link TestContext test context}.
   *
   * <p>Only call this method if {@link #endTransaction} has been called or if no transaction has
   * been previously started.
   *
   * @param testContext the current test context
   * @throws TransactionException if starting the transaction fails
   * @throws Exception if an error occurs while retrieving the transaction manager
   */
  private void startNewTransaction(TestContext testContext, TransactionContext txContext)
      throws Exception {
    txContext.startTransaction();
    ++this.transactionsStarted;
    if (logger.isInfoEnabled()) {
      logger.info(
          "Began transaction ("
              + this.transactionsStarted
              + "): transaction manager ["
              + txContext.transactionManager
              + "]; rollback ["
              + isRollback(testContext)
              + "]");
    }
  }

  /**
   * Immediately force a <em>commit</em> or <em>rollback</em> of the transaction for the supplied
   * {@link TestContext test context}, according to the commit and rollback flags.
   *
   * @param testContext the current test context
   * @throws Exception if an error occurs while retrieving the transaction manager
   */
  private void endTransaction(TestContext testContext, TransactionContext txContext)
      throws Exception {
    boolean rollback = isRollback(testContext);
    if (logger.isTraceEnabled()) {
      logger.trace(
          "Ending transaction for test context "
              + testContext
              + "; transaction manager ["
              + txContext.transactionStatus
              + "]; rollback ["
              + rollback
              + "]");
    }
    txContext.endTransaction(rollback);
    if (logger.isInfoEnabled()) {
      logger.info(
          (rollback ? "Rolled back" : "Committed")
              + " transaction after test execution for test context "
              + testContext);
    }
  }

  /**
   * Get the {@link PlatformTransactionManager transaction manager} to use for the supplied {@link
   * TestContext test context} and {@code qualifier}.
   *
   * <p>Delegates to {@link #getTransactionManager(TestContext)} if the supplied {@code qualifier}
   * is {@code null} or empty.
   *
   * @param testContext the test context for which the transaction manager should be retrieved
   * @param qualifier the qualifier for selecting between multiple bean matches; may be {@code null}
   *     or empty
   * @return the transaction manager to use, or {@code null} if not found
   * @throws BeansException if an error occurs while retrieving the transaction manager
   * @see #getTransactionManager(TestContext)
   */
  protected final PlatformTransactionManager getTransactionManager(
      TestContext testContext, String qualifier) {
    // look up by type and qualifier from @Transactional
    if (StringUtils.hasText(qualifier)) {
      try {
        // Use autowire-capable factory in order to support extended qualifier
        // matching (only exposed on the internal BeanFactory, not on the
        // ApplicationContext).
        BeanFactory bf = testContext.getApplicationContext().getAutowireCapableBeanFactory();

        return BeanFactoryAnnotationUtils.qualifiedBeanOfType(
            bf, PlatformTransactionManager.class, qualifier);
      } catch (RuntimeException ex) {
        if (logger.isWarnEnabled()) {
          logger.warn(
              "Caught exception while retrieving transaction manager for test context "
                  + testContext
                  + " and qualifier ["
                  + qualifier
                  + "]",
              ex);
        }
        throw ex;
      }
    }

    // else
    return getTransactionManager(testContext);
  }

  /**
   * Get the {@link PlatformTransactionManager transaction manager} to use for the supplied {@link
   * TestContext test context}.
   *
   * @param testContext the test context for which the transaction manager should be retrieved
   * @return the transaction manager to use, or {@code null} if not found
   * @throws BeansException if an error occurs while retrieving the transaction manager
   * @see #getTransactionManager(TestContext, String)
   */
  protected final PlatformTransactionManager getTransactionManager(TestContext testContext) {
    BeanFactory bf = testContext.getApplicationContext().getAutowireCapableBeanFactory();
    String tmName = retrieveConfigurationAttributes(testContext).getTransactionManagerName();

    try {
      // look up by type and explicit name from @TransactionConfiguration
      if (StringUtils.hasText(tmName) && !DEFAULT_TRANSACTION_MANAGER_NAME.equals(tmName)) {
        return bf.getBean(tmName, PlatformTransactionManager.class);
      }

      if (bf instanceof ListableBeanFactory) {
        ListableBeanFactory lbf = (ListableBeanFactory) bf;

        // look up single bean by type
        Map<String, PlatformTransactionManager> txMgrs =
            BeanFactoryUtils.beansOfTypeIncludingAncestors(lbf, PlatformTransactionManager.class);
        if (txMgrs.size() == 1) {
          return txMgrs.values().iterator().next();
        }

        // look up single TransactionManagementConfigurer
        Map<String, TransactionManagementConfigurer> configurers =
            BeanFactoryUtils.beansOfTypeIncludingAncestors(
                lbf, TransactionManagementConfigurer.class);
        if (configurers.size() > 1) {
          throw new IllegalStateException(
              "Only one TransactionManagementConfigurer may exist in the ApplicationContext");
        }
        if (configurers.size() == 1) {
          return configurers.values().iterator().next().annotationDrivenTransactionManager();
        }
      }

      // look up by type and default name from @TransactionConfiguration
      return bf.getBean(DEFAULT_TRANSACTION_MANAGER_NAME, PlatformTransactionManager.class);

    } catch (BeansException ex) {
      if (logger.isWarnEnabled()) {
        logger.warn(
            "Caught exception while retrieving transaction manager for test context " + testContext,
            ex);
      }
      throw ex;
    }
  }

  /**
   * Determine whether or not to rollback transactions by default for the supplied {@link
   * TestContext test context}.
   *
   * @param testContext the test context for which the default rollback flag should be retrieved
   * @return the <em>default rollback</em> flag for the supplied test context
   * @throws Exception if an error occurs while determining the default rollback flag
   */
  protected final boolean isDefaultRollback(TestContext testContext) throws Exception {
    return retrieveConfigurationAttributes(testContext).isDefaultRollback();
  }

  /**
   * Determine whether or not to rollback transactions for the supplied {@link TestContext test
   * context} by taking into consideration the {@link #isDefaultRollback(TestContext) default
   * rollback} flag and a possible method-level override via the {@link Rollback} annotation.
   *
   * @param testContext the test context for which the rollback flag should be retrieved
   * @return the <em>rollback</em> flag for the supplied test context
   * @throws Exception if an error occurs while determining the rollback flag
   */
  protected final boolean isRollback(TestContext testContext) throws Exception {
    boolean rollback = isDefaultRollback(testContext);
    Rollback rollbackAnnotation = testContext.getTestMethod().getAnnotation(Rollback.class);
    if (rollbackAnnotation != null) {
      boolean rollbackOverride = rollbackAnnotation.value();
      if (logger.isDebugEnabled()) {
        logger.debug(
            "Method-level @Rollback("
                + rollbackOverride
                + ") overrides default rollback ["
                + rollback
                + "] for test context "
                + testContext);
      }
      rollback = rollbackOverride;
    } else {
      if (logger.isDebugEnabled()) {
        logger.debug(
            "No method-level @Rollback override: using default rollback ["
                + rollback
                + "] for test context "
                + testContext);
      }
    }
    return rollback;
  }

  /**
   * Gets all superclasses of the supplied {@link Class class}, including the class itself. The
   * ordering of the returned list will begin with the supplied class and continue up the class
   * hierarchy.
   *
   * <p>Note: This code has been borrowed from {@link
   * org.junit.internal.runners.TestClass#getSuperClasses(Class)} and adapted.
   *
   * @param clazz the class for which to retrieve the superclasses.
   * @return all superclasses of the supplied class.
   */
  private List<Class<?>> getSuperClasses(Class<?> clazz) {
    ArrayList<Class<?>> results = new ArrayList<Class<?>>();
    Class<?> current = clazz;
    while (current != null) {
      results.add(current);
      current = current.getSuperclass();
    }
    return results;
  }

  /**
   * Gets all methods in the supplied {@link Class class} and its superclasses which are annotated
   * with the supplied {@code annotationType} but which are not <em>shadowed</em> by methods
   * overridden in subclasses.
   *
   * <p>Note: This code has been borrowed from {@link
   * org.junit.internal.runners.TestClass#getAnnotatedMethods(Class)} and adapted.
   *
   * @param clazz the class for which to retrieve the annotated methods
   * @param annotationType the annotation type for which to search
   * @return all annotated methods in the supplied class and its superclasses
   */
  private List<Method> getAnnotatedMethods(
      Class<?> clazz, Class<? extends Annotation> annotationType) {
    List<Method> results = new ArrayList<Method>();
    for (Class<?> eachClass : getSuperClasses(clazz)) {
      Method[] methods = eachClass.getDeclaredMethods();
      for (Method eachMethod : methods) {
        Annotation annotation = eachMethod.getAnnotation(annotationType);
        if (annotation != null && !isShadowed(eachMethod, results)) {
          results.add(eachMethod);
        }
      }
    }
    return results;
  }

  /**
   * Determines if the supplied {@link Method method} is <em>shadowed</em> by a method in supplied
   * {@link List list} of previous methods.
   *
   * <p>Note: This code has been borrowed from {@link
   * org.junit.internal.runners.TestClass#isShadowed(Method, List)}.
   *
   * @param method the method to check for shadowing
   * @param previousMethods the list of methods which have previously been processed
   * @return {@code true} if the supplied method is shadowed by a method in the {@code
   *     previousMethods} list
   */
  private boolean isShadowed(Method method, List<Method> previousMethods) {
    for (Method each : previousMethods) {
      if (isShadowed(method, each)) {
        return true;
      }
    }
    return false;
  }

  /**
   * Determines if the supplied {@link Method current method} is <em>shadowed</em> by a {@link
   * Method previous method}.
   *
   * <p>Note: This code has been borrowed from {@link
   * org.junit.internal.runners.TestClass#isShadowed(Method, Method)}.
   *
   * @param current the current method
   * @param previous the previous method
   * @return {@code true} if the previous method shadows the current one
   */
  private boolean isShadowed(Method current, Method previous) {
    if (!previous.getName().equals(current.getName())) {
      return false;
    }
    if (previous.getParameterTypes().length != current.getParameterTypes().length) {
      return false;
    }
    for (int i = 0; i < previous.getParameterTypes().length; i++) {
      if (!previous.getParameterTypes()[i].equals(current.getParameterTypes()[i])) {
        return false;
      }
    }
    return true;
  }

  /**
   * Retrieves the {@link TransactionConfigurationAttributes} for the specified {@link Class class}
   * which may optionally declare or inherit {@link TransactionConfiguration
   * &#064;TransactionConfiguration}. If {@code @TransactionConfiguration} is not present for the
   * supplied class, the <em>default values</em> for attributes defined in
   * {@code @TransactionConfiguration} will be used instead.
   *
   * @param testContext the test context for which the configuration attributes should be retrieved
   * @return a new TransactionConfigurationAttributes instance
   */
  private TransactionConfigurationAttributes retrieveConfigurationAttributes(
      TestContext testContext) {
    if (this.configurationAttributes == null) {
      Class<?> clazz = testContext.getTestClass();
      TransactionConfiguration config = clazz.getAnnotation(TransactionConfiguration.class);
      if (logger.isDebugEnabled()) {
        logger.debug(
            "Retrieved @TransactionConfiguration [" + config + "] for test class [" + clazz + "]");
      }

      String transactionManagerName;
      boolean defaultRollback;
      if (config != null) {
        transactionManagerName = config.transactionManager();
        defaultRollback = config.defaultRollback();
      } else {
        transactionManagerName = DEFAULT_TRANSACTION_MANAGER_NAME;
        defaultRollback = DEFAULT_DEFAULT_ROLLBACK;
      }

      TransactionConfigurationAttributes configAttributes =
          new TransactionConfigurationAttributes(transactionManagerName, defaultRollback);
      if (logger.isDebugEnabled()) {
        logger.debug(
            "Retrieved TransactionConfigurationAttributes "
                + configAttributes
                + " for class ["
                + clazz
                + "]");
      }
      this.configurationAttributes = configAttributes;
    }
    return this.configurationAttributes;
  }

  /** Internal context holder for a specific test method. */
  private static class TransactionContext {

    private final PlatformTransactionManager transactionManager;

    private final TransactionDefinition transactionDefinition;

    private TransactionStatus transactionStatus;

    public TransactionContext(
        PlatformTransactionManager transactionManager,
        TransactionDefinition transactionDefinition) {
      this.transactionManager = transactionManager;
      this.transactionDefinition = transactionDefinition;
    }

    public void startTransaction() {
      this.transactionStatus = this.transactionManager.getTransaction(this.transactionDefinition);
    }

    public void endTransaction(boolean rollback) {
      if (rollback) {
        this.transactionManager.rollback(this.transactionStatus);
      } else {
        this.transactionManager.commit(this.transactionStatus);
      }
    }
  }
}