public Object invokeHome(Invocation mi) throws Exception {
    EntityEnterpriseContext ctx = (EntityEnterpriseContext) mi.getEnterpriseContext();
    Transaction tx = mi.getTransaction();

    Object rtn = getNext().invokeHome(mi);

    // An anonymous context was sent in, so if it has an id it is a real instance now
    if (ctx.getId() != null) {

      // it doesn't need to be read, but it might have been changed from the db already.
      ctx.setValid(true);

      if (tx != null) {
        BeanLock lock = container.getLockManager().getLock(ctx.getCacheKey());
        try {
          lock.schedule(mi);
          register(ctx, tx); // Set tx
          lock.endInvocation(mi);
        } finally {
          container.getLockManager().removeLockRef(lock.getId());
        }
      }
    }
    return rtn;
  }
    public void afterCompletion(int status) {
      boolean trace = log.isTraceEnabled();

      // This is an independent point of entry. We need to make sure the
      // thread is associated with the right context class loader
      ClassLoader oldCl = SecurityActions.getContextClassLoader();
      SecurityActions.setContextClassLoader(container.getClassLoader());
      container.pushENC();
      ctx.hasTxSynchronization(false);
      ctx.setTransaction(null);
      try {
        try {
          // If rolled back -> invalidate instance
          if (status != Status.STATUS_ROLLEDBACK) {
            switch (commitOption) {
                // Keep instance cached after tx commit
              case ConfigurationMetaData.A_COMMIT_OPTION:
                throw new IllegalStateException(
                    "Commit option A not allowed with this Interceptor");
                // Keep instance active, but invalidate state
              case ConfigurationMetaData.B_COMMIT_OPTION:
                break;
                // Invalidate everything AND Passivate instance
              case ConfigurationMetaData.C_COMMIT_OPTION:
                break;
              case ConfigurationMetaData.D_COMMIT_OPTION:
                throw new IllegalStateException(
                    "Commit option D not allowed with this Interceptor");
            }
          }
          try {
            if (ctx.getId() != null) container.getPersistenceManager().passivateEntity(ctx);
          } catch (Exception ignored) {
          }
          container.getInstancePool().free(ctx);
        } finally {
          if (trace) log.trace("afterCompletion, clear tx for ctx=" + ctx + ", tx=" + tx);
        }
      } // synchronized(lock)
      finally {
        container.popENC();
        SecurityActions.setContextClassLoader(oldCl);
      }
    }
  /** Register a transaction synchronization callback with a context. */
  protected void register(EntityEnterpriseContext ctx, Transaction tx) {
    boolean trace = log.isTraceEnabled();
    if (trace) log.trace("register, ctx=" + ctx + ", tx=" + tx);

    EntityContainer ctxContainer = null;
    try {
      ctxContainer = (EntityContainer) ctx.getContainer();
      if (!ctx.hasTxSynchronization()) {
        // Create a new synchronization
        Synchronization synch = createSynchronization(tx, ctx);

        // We want to be notified when the transaction commits
        tx.registerSynchronization(synch);

        ctx.hasTxSynchronization(true);
      }
      // mark it dirty in global tx entity map if it is not read only
      if (!ctxContainer.isReadOnly()) {
        ctx.getTxAssociation().scheduleSync(tx, ctx);
      }
    } catch (RollbackException e) {
      // The state in the instance is to be discarded, we force a reload of state
      synchronized (ctx) {
        ctx.setValid(false);
        ctx.hasTxSynchronization(false);
        ctx.setTransaction(null);
        ctx.setTxAssociation(GlobalTxEntityMap.NONE);
      }
      throw new EJBException(e);
    } catch (Throwable t) {
      // If anything goes wrong with the association remove the ctx-tx association
      ctx.hasTxSynchronization(false);
      ctx.setTxAssociation(GlobalTxEntityMap.NONE);
      if (t instanceof RuntimeException) throw (RuntimeException) t;
      else if (t instanceof Error) throw (Error) t;
      else if (t instanceof Exception) throw new EJBException((Exception) t);
      else throw new NestedRuntimeException(t);
    }
  }
    public void afterCompletion(int status) {
      boolean trace = log.isTraceEnabled();

      // This is an independent point of entry. We need to make sure the
      // thread is associated with the right context class loader
      ClassLoader oldCl = SecurityActions.getContextClassLoader();
      boolean setCl = !oldCl.equals(container.getClassLoader());
      if (setCl) {
        SecurityActions.setContextClassLoader(container.getClassLoader());
      }
      container.pushENC();

      int commitOption =
          ctx.isPassivateAfterCommit()
              ? ConfigurationMetaData.C_COMMIT_OPTION
              : EntitySynchronizationInterceptor.this.commitOption;

      lock.sync();
      // The context is no longer synchronized on the TX
      ctx.hasTxSynchronization(false);
      ctx.setTxAssociation(GlobalTxEntityMap.NONE);
      ctx.setTransaction(null);
      try {
        try {
          // If rolled back -> invalidate instance
          if (status == Status.STATUS_ROLLEDBACK) {
            // remove from the cache
            container.getInstanceCache().remove(ctx.getCacheKey());
          } else {
            switch (commitOption) {
                // Keep instance cached after tx commit
              case ConfigurationMetaData.A_COMMIT_OPTION:
              case ConfigurationMetaData.D_COMMIT_OPTION:
                // The state is still valid (only point of access is us)
                ctx.setValid(true);
                break;

                // Keep instance active, but invalidate state
              case ConfigurationMetaData.B_COMMIT_OPTION:
                // Invalidate state (there might be other points of entry)
                ctx.setValid(false);
                break;
                // Invalidate everything AND Passivate instance
              case ConfigurationMetaData.C_COMMIT_OPTION:
                try {
                  // We weren't removed, passivate
                  // Here we own the lock, so we don't try to passivate
                  // we just passivate
                  if (ctx.getId() != null) {
                    container.getInstanceCache().remove(ctx.getId());
                    container.getPersistenceManager().passivateEntity(ctx);
                  }
                  // If we get this far, we return to the pool
                  container.getInstancePool().free(ctx);
                } catch (Exception e) {
                  log.debug("Exception releasing context", e);
                }
                break;
            }
          }
        } finally {
          if (trace) log.trace("afterCompletion, clear tx for ctx=" + ctx + ", tx=" + tx);
          lock.endTransaction(tx);

          if (trace) log.trace("afterCompletion, sent notify on TxLock for ctx=" + ctx);
        }
      } // synchronized(lock)
      finally {
        lock.releaseSync();
        container.getLockManager().removeLockRef(lock.getId());
        container.popENC();
        if (setCl) {
          SecurityActions.setContextClassLoader(oldCl);
        }
      }
    }
 /** Create a new instance synchronization instance. */
 InstanceSynchronization(Transaction tx, EntityEnterpriseContext ctx) {
   this.tx = tx;
   this.ctx = ctx;
   this.lock = container.getLockManager().getLock(ctx.getCacheKey());
 }
  public Object invoke(Invocation mi) throws Exception {
    // We are going to work with the context a lot
    EntityEnterpriseContext ctx = (EntityEnterpriseContext) mi.getEnterpriseContext();

    // The Tx coming as part of the Method Invocation
    Transaction tx = mi.getTransaction();

    if (log.isTraceEnabled()) log.trace("invoke called for ctx " + ctx + ", tx=" + tx);

    if (!ctx.isValid()) {
      container.getPersistenceManager().loadEntity(ctx);
      ctx.setValid(true);
    }

    // mark the context as read only if this is a readonly method and the context
    // was not already readonly
    boolean didSetReadOnly = false;
    if (!ctx.isReadOnly()
        && (container.isReadOnly()
            || container.getBeanMetaData().isMethodReadOnly(mi.getMethod()))) {
      ctx.setReadOnly(true);
      didSetReadOnly = true;
    }

    // So we can go on with the invocation

    // Invocation with a running Transaction
    try {
      if (tx != null && tx.getStatus() != Status.STATUS_NO_TRANSACTION) {
        // readonly does not synchronize, lock or belong with transaction.
        boolean isReadOnly = container.isReadOnly();
        if (isReadOnly == false) {
          Method method = mi.getMethod();
          if (method != null)
            isReadOnly = container.getBeanMetaData().isMethodReadOnly(method.getName());
        }
        try {
          if (isReadOnly == false) {
            // register the wrapper with the transaction monitor (but only
            // register once). The transaction demarcation will trigger the
            // storage operations
            register(ctx, tx);
          }

          // Invoke down the chain
          Object retVal = getNext().invoke(mi);

          // Register again as a finder in the middle of a method
          // will de-register this entity, and then the rest of the method can
          // change fields which will never be stored
          if (isReadOnly == false) {
            // register the wrapper with the transaction monitor (but only
            // register once). The transaction demarcation will trigger the
            // storage operations
            register(ctx, tx);
          }

          // return the return value
          return retVal;
        } finally {
          // We were read-only and the context wasn't already synchronized, tidyup the cache
          if (isReadOnly && ctx.hasTxSynchronization() == false) {
            switch (commitOption) {
                // Keep instance active, but invalidate state
              case ConfigurationMetaData.B_COMMIT_OPTION:
                // Invalidate state (there might be other points of entry)
                ctx.setValid(false);
                break;

                // Invalidate everything AND Passivate instance
              case ConfigurationMetaData.C_COMMIT_OPTION:
                try {
                  // FIXME: We cannot passivate here, because previous
                  // interceptors work with the context, in particular
                  // the re-entrance interceptor is doing lock counting
                  // Just remove it from the cache
                  if (ctx.getId() != null) container.getInstanceCache().remove(ctx.getId());
                } catch (Exception e) {
                  log.debug("Exception releasing context", e);
                }
                break;
            }
          }
        }
      } else {
        // No tx
        try {
          Object result = getNext().invoke(mi);

          // Store after each invocation -- not on exception though, or removal
          // And skip reads too ("get" methods)
          if (ctx.getId() != null && !container.isReadOnly()) {
            container.invokeEjbStore(ctx);
            container.storeEntity(ctx);
          }

          return result;
        } catch (Exception e) {
          // Exception - force reload on next call
          ctx.setValid(false);
          throw e;
        } finally {
          switch (commitOption) {
              // Keep instance active, but invalidate state
            case ConfigurationMetaData.B_COMMIT_OPTION:
              // Invalidate state (there might be other points of entry)
              ctx.setValid(false);
              break;

              // Invalidate everything AND Passivate instance
            case ConfigurationMetaData.C_COMMIT_OPTION:
              try {
                // Do not call release if getId() is null.  This means that
                // the entity has been removed from cache.
                // release will schedule a passivation and this removed ctx
                // could be put back into the cache!
                // This is necessary because we have no lock, we
                // don't want to return an instance to the pool that is
                // being used
                if (ctx.getId() != null) container.getInstanceCache().remove(ctx.getId());
              } catch (Exception e) {
                log.debug("Exception releasing context", e);
              }
              break;
          }
        }
      }
    } finally {
      // if we marked the context as read only we need to reset it
      if (didSetReadOnly) {
        ctx.setReadOnly(false);
      }
    }
  }