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path: root/TAO/tao/PortableServer/POA.cpp
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#include "tao/PortableServer/POA.h"

ACE_RCSID (TAO_PortableServer,
           POA,
           "$Id$")

//
// ImplRepo related.
//
#if (TAO_HAS_MINIMUM_CORBA == 0)
# include "tao/PortableServer/ImR_LocatorC.h"
# include "tao/PortableServer/ImplRepo_i.h"
#endif /* TAO_HAS_MINIMUM_CORBA */

#include "tao/StringSeqC.h"

#include "tao/PortableServer/IORInfo.h"
#include "tao/PortableServer/ObjectReferenceTemplate.h"
#include "tao/PortableServer/Default_Acceptor_Filter.h"

#include "tao/ORB_Core.h"
#include "tao/ORB.h"
#include "tao/Server_Strategy_Factory.h"
#include "tao/Acceptor_Registry.h"
#include "tao/Thread_Lane_Resources.h"
#include "tao/Environment.h"
#include "tao/Exception.h"
#include "tao/Stub.h"
#include "tao/Profile.h"
#include "tao/debug.h"

#include "Default_Acceptor_Filter.h"

#include "PortableGroup_Hooks.h"

// auto_ptr class
#include "ace/Auto_Ptr.h"

#if !defined (__ACE_INLINE__)
# include "POA.i"
#endif /* ! __ACE_INLINE__ */

// This is the TAO_Object_key-prefix that is appended to all TAO Object keys.
// It's an array of octets representing ^t^a^o/0 in octal.
CORBA::Octet
TAO_POA::objectkey_prefix [TAO_POA::TAO_OBJECTKEY_PREFIX_SIZE] = {
  024, // octal for ^t
  001, // octal for ^a
  017, // octal for ^o
  000
};

TAO_POA*
TAO_POA::_tao_poa_downcast(void)
{
  return this;
}

#if (TAO_HAS_MINIMUM_POA == 0)

PortableServer::ThreadPolicy_ptr
TAO_POA::create_thread_policy (PortableServer::ThreadPolicyValue value
                               ACE_ENV_ARG_DECL)
  ACE_THROW_SPEC ((CORBA::SystemException))
{
  TAO_Thread_Policy *thread_policy = 0;
  ACE_NEW_THROW_EX (thread_policy,
                    TAO_Thread_Policy (value),
                    CORBA::NO_MEMORY ());
  ACE_CHECK_RETURN (PortableServer::ThreadPolicy::_nil ());

  return thread_policy;
}

#endif /* TAO_HAS_MINIMUM_POA == 0 */

PortableServer::LifespanPolicy_ptr
TAO_POA::create_lifespan_policy (PortableServer::LifespanPolicyValue value
                                 ACE_ENV_ARG_DECL)
  ACE_THROW_SPEC ((CORBA::SystemException))
{
  TAO_Lifespan_Policy *lifespan_policy = 0;
  ACE_NEW_THROW_EX (lifespan_policy,
                    TAO_Lifespan_Policy (value),
                    CORBA::NO_MEMORY ());
  ACE_CHECK_RETURN (PortableServer::LifespanPolicy::_nil ());

  return lifespan_policy;
}

PortableServer::IdUniquenessPolicy_ptr
TAO_POA::create_id_uniqueness_policy (PortableServer::IdUniquenessPolicyValue value
                                      ACE_ENV_ARG_DECL)
  ACE_THROW_SPEC ((CORBA::SystemException))
{
  TAO_Id_Uniqueness_Policy *id_uniqueness_policy = 0;
  ACE_NEW_THROW_EX (id_uniqueness_policy,
                    TAO_Id_Uniqueness_Policy (value),
                    CORBA::NO_MEMORY ());
  ACE_CHECK_RETURN (PortableServer::IdUniquenessPolicy::_nil ());

  return id_uniqueness_policy;
}

PortableServer::IdAssignmentPolicy_ptr
TAO_POA::create_id_assignment_policy (PortableServer::IdAssignmentPolicyValue value
                                      ACE_ENV_ARG_DECL)
  ACE_THROW_SPEC ((CORBA::SystemException))
{
  TAO_Id_Assignment_Policy *id_assignment_policy = 0;
  ACE_NEW_THROW_EX (id_assignment_policy,
                    TAO_Id_Assignment_Policy (value),
                    CORBA::NO_MEMORY ());
  ACE_CHECK_RETURN (PortableServer::IdAssignmentPolicy::_nil ());

  return id_assignment_policy;
}

#if (TAO_HAS_MINIMUM_POA == 0)

PortableServer::ImplicitActivationPolicy_ptr
TAO_POA::create_implicit_activation_policy (PortableServer::ImplicitActivationPolicyValue value
                                            ACE_ENV_ARG_DECL)
  ACE_THROW_SPEC ((CORBA::SystemException))
{
  TAO_Implicit_Activation_Policy *implicit_activation_policy = 0;
  ACE_NEW_THROW_EX (implicit_activation_policy,
                    TAO_Implicit_Activation_Policy (value),
                    CORBA::NO_MEMORY ());
  ACE_CHECK_RETURN (PortableServer::ImplicitActivationPolicy::_nil ());

  return implicit_activation_policy;
}

PortableServer::ServantRetentionPolicy_ptr
TAO_POA::create_servant_retention_policy (PortableServer::ServantRetentionPolicyValue value
                                          ACE_ENV_ARG_DECL)
  ACE_THROW_SPEC ((CORBA::SystemException))
{
  TAO_Servant_Retention_Policy *servant_retention_policy = 0;
  ACE_NEW_THROW_EX (servant_retention_policy,
                    TAO_Servant_Retention_Policy (value),
                    CORBA::NO_MEMORY ());
  ACE_CHECK_RETURN (PortableServer::ServantRetentionPolicy::_nil ());

  return servant_retention_policy;
}

PortableServer::RequestProcessingPolicy_ptr
TAO_POA::create_request_processing_policy (PortableServer::RequestProcessingPolicyValue value
                                           ACE_ENV_ARG_DECL)
  ACE_THROW_SPEC ((CORBA::SystemException))
{
  TAO_Request_Processing_Policy *request_processing_policy = 0;
  ACE_NEW_THROW_EX (request_processing_policy,
                    TAO_Request_Processing_Policy (value),
                    CORBA::NO_MEMORY ());
  ACE_CHECK_RETURN (PortableServer::RequestProcessingPolicy::_nil ());

  return request_processing_policy;
}

#endif /* TAO_HAS_MINIMUM_POA == 0 */

void
TAO_POA::set_obj_ref_factory (
  PortableInterceptor::ObjectReferenceFactory *current_factory
  ACE_ENV_ARG_DECL_NOT_USED)
{
  CORBA::add_ref (current_factory);
  this->obj_ref_factory_ = current_factory;
}

TAO_POA::TAO_POA (const TAO_POA::String &name,
                  TAO_POA_Manager &poa_manager,
                  const TAO_POA_Policy_Set &policies,
                  TAO_POA *parent,
                  ACE_Lock &lock,
                  TAO_SYNCH_MUTEX &thread_lock,
                  TAO_ORB_Core &orb_core,
                  TAO_Object_Adapter *object_adapter
                  ACE_ENV_ARG_DECL)
  : name_ (name),
    poa_manager_ (poa_manager),
    tagged_component_ (),
    tagged_component_id_ (),
    profile_id_array_ (0),
    policies_ (policies),
    parent_ (parent),
    active_object_map_ (0),
    adapter_state_ (PortableInterceptor::HOLDING),

#if (TAO_HAS_MINIMUM_POA == 0)

    adapter_activator_ (),
    servant_activator_ (),
    servant_locator_ (),
    default_servant_ (),

#endif /* TAO_HAS_MINIMUM_POA == 0 */

    //
    // ImplRepo related.
    //
#if (TAO_HAS_MINIMUM_CORBA == 0)

    server_object_ (0),
    use_imr_ (1),

#endif /* TAO_HAS_MINIMUM_CORBA */

    children_ (),
    lock_ (lock),
    creation_time_ (ACE_OS::gettimeofday ()),
    orb_core_ (orb_core),
    object_adapter_ (object_adapter),
    cleanup_in_progress_ (0),
    etherealize_objects_ (1),
    outstanding_requests_ (0),
    outstanding_requests_condition_ (thread_lock),
    wait_for_completion_pending_ (0),
    waiting_destruction_ (0),
    servant_deactivation_condition_ (thread_lock),
    waiting_servant_deactivation_ (0),
    single_threaded_lock_ (0),
    caller_key_to_object_ (0),
    servant_for_key_to_object_ (0)
{
  // Parse the policies that are used in the critical path in
  // a cache.
  this->cached_policies_.update (this->policies_
                                 ACE_ENV_ARG_PARAMETER);
  ACE_CHECK;

#if (TAO_HAS_MINIMUM_POA == 1)
  // If this is the RootPOA, set the value of the ImplicitActivationPolicy
  // to IMPLICIT_ACTIVATION since it is impossible to pass the policy
  // as it is not compiled into the library.
  //
  // If the ImplicitActivationPolicy policy is ever compiled in the
  // minimum POA builds, remove this code and remove the guards
  // in Object_Adapter.cpp when changing the default policy for the
  // RootPOA.
  if (ACE_OS::strcmp (this->name_.c_str (),
                      TAO_DEFAULT_ROOTPOA_NAME) == 0)
    {
      this->cached_policies_.implicit_activation
        (PortableServer::IMPLICIT_ACTIVATION);
    }
#endif /* TAO_HAS_MINIMUM_POA == 1 */

  // Set the folded name of this POA.
  this->set_folded_name ();

  // Create the active object map.
  TAO_Active_Object_Map *active_object_map = 0;
  ACE_NEW_THROW_EX (active_object_map,
                    TAO_Active_Object_Map (!this->system_id (),
                                           this->cached_policies_.id_uniqueness () == PortableServer::UNIQUE_ID,
                                           this->persistent (),
                                           this->orb_core_.server_factory ()->active_object_map_creation_parameters ()
                                           ACE_ENV_ARG_PARAMETER),
                    CORBA::NO_MEMORY ());

  // Give ownership of the new map to the auto pointer.  Note, that it
  // is important for the auto pointer to take ownership before
  // checking for exception since we may need to delete the new map.
  auto_ptr<TAO_Active_Object_Map> new_active_object_map (active_object_map);

  // Check for exception in construction of the active object map.
  ACE_CHECK;

#if (TAO_HAS_MINIMUM_POA == 0)

  // Setup lock if POA is single threaded.
  if (this->cached_policies_.thread () == PortableServer::SINGLE_THREAD_MODEL)
    {
      ACE_NEW_THROW_EX (this->single_threaded_lock_,
                        TAO_SYNCH_RECURSIVE_MUTEX,
                        CORBA::NO_MEMORY ());

    }

#endif /* TAO_HAS_MINIMUM_POA == 0 */

  // Register self with manager.
  int result = this->poa_manager_.register_poa (this);
  if (result != 0)
    {
      ACE_THROW (CORBA::OBJ_ADAPTER ());
    }

  // Add self to Object Adapter class.
  result =
    this->object_adapter ().bind_poa (this->folded_name_,
                                      this,
                                      this->system_name_.out ());
  if (result != 0)
    {
      // Remove from POA Manager in case of errors. No checks of
      // further errors...
      this->poa_manager_.remove_poa (this);

      ACE_THROW (CORBA::OBJ_ADAPTER ());
    }

  // Set the id for this POA.
  this->set_id ();

  // Finally everything is fine.  Make sure to take ownership away
  // from the auto pointer.
  this->active_object_map_ = new_active_object_map.release ();

  //
  // ImplRepo related.
  //
#if (TAO_HAS_MINIMUM_CORBA == 0)
  if (this->cached_policies_.lifespan () == PortableServer::PERSISTENT)
    {
      int temp = this->use_imr_;
      this->use_imr_ = 0;
      ACE_TRY
        {
          this->imr_notify_startup (ACE_ENV_SINGLE_ARG_PARAMETER);
          ACE_TRY_CHECK;
        }
      ACE_CATCHANY
        {
          this->poa_manager_.remove_poa (this);
          this->object_adapter ().unbind_poa (this,
                                              this->folded_name_,
                                              this->system_name_.in ());
          ACE_RE_THROW;
        }
      ACE_ENDTRY;
      ACE_CHECK;

      this->use_imr_ = temp;
    }

#endif /* TAO_HAS_MINIMUM_CORBA */

  // Create an ObjectReferenceTemplate for this POA.
  ACE_NEW_THROW_EX (this->def_ort_template_,
                    TAO_ObjectReferenceTemplate (
                      this->orb_core_.server_id (),
                      this->orb_core_.orbid (),
                      this),
                    CORBA::NO_MEMORY ());
  ACE_CHECK;

  this->ort_template_ = this->def_ort_template_;

  // Must increase ref count since this->obj_ref_factory_ will
  // descrease it upon destruction.
  CORBA::add_ref (this->ort_template_.in ());
  this->obj_ref_factory_ = this->ort_template_;

  // Iterate over the registered IOR interceptors so that they may be
  // given the opportunity to add tagged components to the profiles
  // for this servant.
  this->establish_components (ACE_ENV_SINGLE_ARG_PARAMETER);
  ACE_CHECK;
}

TAO_POA::~TAO_POA (void)
{
  delete this->single_threaded_lock_;
}

void
TAO_POA::complete_destruction_i (ACE_ENV_SINGLE_ARG_DECL)
{
  // No longer awaiting destruction.
  this->waiting_destruction_ = 0;

  // Delete the active object map.
  delete this->active_object_map_;

  // Remove POA from the POAManager.
  int result = this->poa_manager_.remove_poa (this);
  if (result != 0)
    ACE_THROW (CORBA::OBJ_ADAPTER ());

  // Remove POA from the Object Adapter.
  result = this->object_adapter ().unbind_poa (this,
                                               this->folded_name_,
                                               this->system_name_.in ());
  if (result != 0)
    ACE_THROW (CORBA::OBJ_ADAPTER ());


  // Forced cleanup.  The new memory management scheme is evil and can
  // lead to reference deadlock, i.e., POA holds object A, but POA
  // cannot die because object A hold POA.
  {
    // A recursive thread lock without using a recursive thread lock.
    // Non_Servant_Upcall has a magic constructor and destructor.  We
    // unlock the Object_Adapter lock for the duration of the servant
    // activator upcalls; reacquiring once the upcalls complete.  Even
    // though we are releasing the lock, other threads will not be
    // able to make progress since
    // <Object_Adapter::non_servant_upcall_in_progress_> has been set.

    //
    // If new things are added to this cleanup code, make sure to move
    // the minimum CORBA #define after the declaration of
    // <non_servant_upcall>.
    //

#if (TAO_HAS_MINIMUM_POA == 0)

    TAO_Object_Adapter::Non_Servant_Upcall non_servant_upcall (*this);
    ACE_UNUSED_ARG (non_servant_upcall);

    this->adapter_activator_ = PortableServer::AdapterActivator::_nil ();

    this->servant_activator_ = PortableServer::ServantActivator::_nil ();

    this->servant_locator_ = PortableServer::ServantLocator::_nil ();

    this->default_servant_ = 0;

#endif /* TAO_HAS_MINIMUM_POA == 0 */

  }

  CORBA::release (this);
}

PortableServer::POA_ptr
TAO_POA::create_POA_i (const char *adapter_name,
                       PortableServer::POAManager_ptr poa_manager,
                       const CORBA::PolicyList &policies
                       ACE_ENV_ARG_DECL)
  ACE_THROW_SPEC ((CORBA::SystemException,
                   PortableServer::POA::AdapterAlreadyExists,
                   PortableServer::POA::InvalidPolicy))
{
  // Initialize a TAO_POA_Policy_Set instance so that it contains the
  // default POA policies.
  TAO_POA_Policy_Set tao_policies (this->object_adapter ().default_poa_policies ());

  // Merge policies from the ORB level.
  this->object_adapter ().validator ().merge_policies (tao_policies.policies ()
                                                       ACE_ENV_ARG_PARAMETER);
  ACE_CHECK_RETURN (PortableServer::POA::_nil ());

  // Merge in any policies that the user may have specified.
  tao_policies.merge_policies (policies
                               ACE_ENV_ARG_PARAMETER);
  ACE_CHECK_RETURN (PortableServer::POA::_nil ());

  // If any of the policy objects specified are not valid for the ORB
  // implementation, if conflicting policy objects are specified, or
  // if any of the specified policy objects require prior
  // administrative action that has not been performed, an
  // InvalidPolicy exception is raised containing the index in the
  // policies parameter value of the first offending policy object.
  tao_policies.validate_policies (this->object_adapter ().validator (),
                                  this->orb_core_
                                  ACE_ENV_ARG_PARAMETER);
  ACE_CHECK_RETURN (PortableServer::POA::_nil ());

  // If the poa_manager parameter is null, a new POAManager object is
  // created and associated with the new POA. Otherwise, the specified
  // POAManager object is associated with the new POA. The POAManager
  // object can be obtained using the attribute name the_POAManager.

  TAO_POA_Manager *tao_poa_manager = 0;
  if (CORBA::is_nil (poa_manager))
    {
      ACE_NEW_THROW_EX (tao_poa_manager,
                        TAO_POA_Manager (this->object_adapter ()),
                        CORBA::NO_MEMORY ());
      ACE_CHECK_RETURN (PortableServer::POA::_nil ());
    }
  else
    {
      tao_poa_manager = ACE_dynamic_cast (TAO_POA_Manager *,
                                          poa_manager);
    }

  TAO_POA *poa = this->create_POA_i (adapter_name,
                                     *tao_poa_manager,
                                     tao_policies
                                     ACE_ENV_ARG_PARAMETER);
  ACE_CHECK_RETURN (PortableServer::POA::_nil ());

  return PortableServer::POA::_duplicate (poa);
}

TAO_POA *
TAO_POA::new_POA (const String &name,
                  TAO_POA_Manager &poa_manager,
                  const TAO_POA_Policy_Set &policies,
                  TAO_POA *parent,
                  ACE_Lock &lock,
                  TAO_SYNCH_MUTEX &thread_lock,
                  TAO_ORB_Core &orb_core,
                  TAO_Object_Adapter *object_adapter
                  ACE_ENV_ARG_DECL)
{
  TAO_POA *poa;

  ACE_NEW_THROW_EX (poa,
                    TAO_POA (name,
                             poa_manager,
                             policies,
                             parent,
                             lock,
                             thread_lock,
                             orb_core,
                             object_adapter
                             ACE_ENV_ARG_PARAMETER),
                    CORBA::NO_MEMORY ());
  ACE_CHECK_RETURN (0);

  return poa;
}

TAO_POA *
TAO_POA::create_POA_i (const TAO_POA::String &adapter_name,
                       TAO_POA_Manager &poa_manager,
                       const TAO_POA_Policy_Set &policies
                       ACE_ENV_ARG_DECL)
  ACE_THROW_SPEC ((CORBA::SystemException,
                   PortableServer::POA::AdapterAlreadyExists,
                   PortableServer::POA::InvalidPolicy))
{
  // This operaton creates a new POA as a child of the target POA. The
  // specified name identifies the new POA with respect to other POAs
  // with the same parent POA. If the target POA already has a child
  // POA with the specified name, the AdapterAlreadyExists exception
  // is raised.
  int result = this->children_.find (adapter_name);

  // Child was found
  if (result != -1)
    {
      ACE_THROW_RETURN (PortableServer::POA::AdapterAlreadyExists (),
                        0);
    }

  //
  // Child was not found
  //

  // The specified policy objects are associated with the POA and used
  // to control its behavior. The policy objects are effectively
  // copied before this operation returns, so the application is free
  // to destroy them while the POA is in use. Policies are not
  // inherited from the parent POA.
  TAO_POA *poa = this->new_POA (adapter_name,
                                poa_manager,
                                policies,
                                this,
                                this->object_adapter ().lock (),
                                this->object_adapter ().thread_lock (),
                                this->orb_core_,
                                this->object_adapter_
                                ACE_ENV_ARG_PARAMETER);

  // Give ownership of the new map to the POA_var.  Note, that it
  // is important for the POA_var to take ownership before
  // checking for exception since we may need to delete the new map.
  PortableServer::POA_var new_poa = poa;

  // Check for exception in construction of the POA.
  ACE_CHECK_RETURN (0);

  // Add to children map
  result = this->children_.bind (adapter_name,
                                 poa);
  if (result != 0)
    {
      ACE_THROW_RETURN (CORBA::OBJ_ADAPTER (),
                        0);
    }

  // Note: Creating a POA using a POA manager that is in the active
  // state can lead to race conditions if the POA supports preexisting
  // objects, because the new POA may receive a request before its
  // adapter activator, servant manager, or default servant have been
  // initialized. These problems do not occur if the POA is created by
  // an adapter activator registered with a parent of the new POA,
  // because requests are queued until the adapter activator
  // returns. To avoid these problems when a POA must be explicitly
  // initialized, the application can initialize the POA by invoking
  // find_POA with a TRUE activate parameter.

  // Everything is fine. Don't let the POA_var release the
  // implementation.
  (void) new_poa._retn ();  // We could do a "return new_poa._retn()"
                            // but the return type doesn't match this
                            // method's return type.

  return poa;
}

PortableServer::POA_ptr
TAO_POA::find_POA (const char *adapter_name,
                   CORBA::Boolean activate_it
                   ACE_ENV_ARG_DECL)
  ACE_THROW_SPEC ((CORBA::SystemException,
                   PortableServer::POA::AdapterNonExistent))
{
  // Lock access for the duration of this transaction.
  TAO_POA_GUARD_RETURN (0);

  // A recursive thread lock without using a recursive thread lock.
  // Non_Servant_Upcall has a magic constructor and destructor.  We
  // unlock the Object_Adapter lock for the duration of the servant
  // activator upcalls; reacquiring once the upcalls complete.  Even
  // though we are releasing the lock, other threads will not be able
  // to make progress since
  // <Object_Adapter::non_servant_upcall_in_progress_> has been set.
  TAO_Object_Adapter::Non_Servant_Upcall non_servant_upcall (*this);
  ACE_UNUSED_ARG (non_servant_upcall);

  TAO_POA *poa = this->find_POA_i (adapter_name,
                                   activate_it
                                   ACE_ENV_ARG_PARAMETER);
  ACE_CHECK_RETURN (PortableServer::POA::_nil ());

  return PortableServer::POA::_duplicate (poa);
}

TAO_POA *
TAO_POA::find_POA_i (const ACE_CString &child_name,
                     CORBA::Boolean activate_it
                     ACE_ENV_ARG_DECL)
  ACE_THROW_SPEC ((CORBA::SystemException,
                   PortableServer::POA::AdapterNonExistent))
{
  TAO_POA *child;
  int result = this->children_.find (child_name,
                                     child);

#if (TAO_HAS_MINIMUM_POA == 0)

  if (result != 0)
    {
      if (activate_it)
        {
          if (!CORBA::is_nil (this->adapter_activator_.in ()))
            {
              // Check the state of the POA Manager.
              this->check_poa_manager_state (ACE_ENV_SINGLE_ARG_PARAMETER);
              ACE_CHECK_RETURN (0);

              CORBA::Boolean success =
                this->adapter_activator_->unknown_adapter (this,
                                                           child_name.c_str ()
                                                           ACE_ENV_ARG_PARAMETER);
              ACE_CHECK_RETURN (0);

              if (success)
                {
                  result = this->children_.find (child_name,
                                                 child);
                }
              else
                {
                  result = -1;
                }
            }
          else
            {
              result = -1;
            }
        }
      else
        {
          result = -1;
        }
    }
#else
  ACE_UNUSED_ARG (activate_it);
#endif /* TAO_HAS_MINIMUM_POA == 0 */

  if (result == 0)
    {
      return child;
    }
  else
    {
      // Otherwise, the AdapterNonExistent exception is raised.
      ACE_THROW_RETURN (PortableServer::POA::AdapterNonExistent (),
                        0);
    }
}

void
TAO_POA::destroy_i (CORBA::Boolean etherealize_objects,
                    CORBA::Boolean wait_for_completion
                    ACE_ENV_ARG_DECL)
  ACE_THROW_SPEC ((CORBA::SystemException))
{
  if (this->cleanup_in_progress_)
    return;

  // Is the <wait_for_completion> semantics for this thread correct?
  TAO_POA::check_for_valid_wait_for_completions (this->orb_core (),
                                                 wait_for_completion
                                                 ACE_ENV_ARG_PARAMETER);
  ACE_CHECK;

  this->cleanup_in_progress_ = 1;

  // This operation destroys the POA and all descendant POAs. The POA
  // so destroyed (that is, the POA with its name) may be re-created
  // later in the same process. (This differs from the
  // POAManager::deactivate operation that does not allow a
  // re-creation of its associated POA in the same process.)

  // Remove POA from the parent
  if (this->parent_ != 0)
    {
      int result = this->parent_->delete_child (this->name_);
      if (result != 0)
        {
          ACE_THROW (CORBA::OBJ_ADAPTER ());
        }
    }

  PortableInterceptor::ObjectReferenceTemplateSeq seq_obj_ref_template;

  CORBA::ULong i = 0;

  //  Remove all children POAs
  for (CHILDREN::iterator iterator = this->children_.begin ();
       iterator != this->children_.end ();
       ++iterator)
    {
      TAO_POA *child_poa = (*iterator).int_id_;

      // Get the adapter template related to the ChildPOA
      PortableInterceptor::ObjectReferenceTemplate *child_at =
        child_poa->get_adapter_template ();

      CORBA::add_ref (child_at);

      // Add it to the sequence of object reference templates that
      // will be destroyed.
      seq_obj_ref_template.length (i + 1);

      seq_obj_ref_template[i] = child_at;

      child_poa->adapter_state_ = PortableInterceptor::INACTIVE;

      child_poa->adapter_state_changed (seq_obj_ref_template,
                                        child_poa->adapter_state_
                                        ACE_ENV_ARG_PARAMETER);
      ACE_CHECK;

      ++i;

      child_poa->destroy_i (etherealize_objects,
                            wait_for_completion
                            ACE_ENV_ARG_PARAMETER);
      ACE_CHECK;
    }

  //
  // ImplRepo related.
  //
#if (TAO_HAS_MINIMUM_CORBA == 0)
  if (this->cached_policies_.lifespan () == PortableServer::PERSISTENT)
    {
      this->imr_notify_shutdown ();
      // Delete the servant, if there is one.

      if (this->server_object_)
        {
          TAO_POA *tao_poa = 0;

          PortableServer::POA_var poa =
            this->server_object_->_default_POA (ACE_ENV_SINGLE_ARG_PARAMETER);
          ACE_CHECK;

          tao_poa = poa->_tao_poa_downcast();
          PortableServer::ObjectId_var id =
            tao_poa->servant_to_id_i (this->server_object_
                                      ACE_ENV_ARG_PARAMETER);
          ACE_CHECK;

          tao_poa->deactivate_object_i (id.in ()
                                        ACE_ENV_ARG_PARAMETER);
          ACE_CHECK;
        }
    }

#endif /* TAO_HAS_MINIMUM_CORBA */

  // When a POA is destroyed, any requests that have started execution
  // continue to completion. Any requests that have not started
  // execution are processed as if they were newly arrived, that is,
  // the POA will attempt to cause recreation of the POA by invoking
  // one or more adapter activators as described in Section 3.3.3.
  // If the wait_for_completion parameter is TRUE, the destroy
  // operation will return only after all requests in process have
  // completed and all invocations of etherealize have
  // completed. Otherwise, the destroy operation returns after
  // destroying the POAs.

  this->deactivate_all_objects_i (etherealize_objects,
                                  wait_for_completion
                                  ACE_ENV_ARG_PARAMETER);
  ACE_CHECK;

  // If there are no outstanding requests and that we are not in a
  // non-servant upcall or if we are in a non-servant upcall, make
  // sure we are the POA related to the non-servant upcall.
  TAO_Object_Adapter::Non_Servant_Upcall *non_servant_upcall_in_progress =
    this->object_adapter ().non_servant_upcall_in_progress ();
  if (this->outstanding_requests_ == 0 &&
      (non_servant_upcall_in_progress == 0 ||
       &non_servant_upcall_in_progress->poa () != this))
    {
      // According to the ORT spec, after a POA is destroyed, its state
      // has to be changed to NON_EXISTENT and all the registered
      // interceptors are to be informed. Since, the POA is destroyed
      // and is released in the complete_destruction_i method, we are
      // trying to keep the poa still around by doing a duplicate of
      // it. (a hack).
      PortableServer::POA_var poa = PortableServer::POA::_duplicate (this);

      this->complete_destruction_i (ACE_ENV_SINGLE_ARG_PARAMETER);
      ACE_CHECK;

      this->adapter_state_ = PortableInterceptor::NON_EXISTENT;

      this->adapter_state_changed (seq_obj_ref_template,
                                   this->adapter_state_
                                   ACE_ENV_ARG_PARAMETER);
      ACE_CHECK;

      // Break all ties between the ObjectReferenceTemplate and this
      // POA.
      this->def_ort_template_->poa (0);
    }
  else
    {
      // Mark that we are ready for destruction.
      this->waiting_destruction_ = 1;
    }
}

int
TAO_POA::delete_child (const TAO_POA::String &child)
{
  int result = 0;

  // If we are not closing down, we must remove this child from our
  // collection.
  if (!this->cleanup_in_progress_)
    result = this->children_.unbind (child);

  // Otherwise, if we are closing down, we are currently iterating
  // over our children and there is not need to remove this child from
  // our collection.

  return result;
}

PortableServer::POAList *
TAO_POA::the_children_i (ACE_ENV_SINGLE_ARG_DECL)
  ACE_THROW_SPEC ((CORBA::SystemException))
{
  PortableServer::POAList_var children;
  CORBA::ULong child_current = ACE_static_cast (CORBA::ULong,
                                                this->children_.current_size ());
  ACE_NEW_THROW_EX (children,
                    PortableServer::POAList (child_current),
                    CORBA::NO_MEMORY ());
  ACE_CHECK_RETURN (0);

  children->length (child_current);

  CORBA::ULong index = 0;
  for (CHILDREN::iterator iterator = this->children_.begin ();
       iterator != this->children_.end ();
       ++iterator, ++index)
    {
      TAO_POA *child_poa = (*iterator).int_id_;
      children[index] = PortableServer::POA::_duplicate (child_poa);
    }

  return children._retn ();
}

PortableInterceptor::AdapterName *
TAO_POA::adapter_name_i (ACE_ENV_SINGLE_ARG_DECL)
  ACE_THROW_SPEC ((CORBA::SystemException))
{
  // The adapter name is the sequence of names starting from the
  // RootPOA to the one whose name is requested.  The name of the
  // RootPOA is "RootPOA".

  PortableServer::POA_var poa = PortableServer::POA::_duplicate (this);

  CORBA::ULong len = 0;

  // Find the length of the adapter name sequence by traversing the
  // POA hierarchy until the RootPOA is reached.  The RootPOA has no
  // parent.
  while (!CORBA::is_nil (poa.in ()))
    {
      poa = poa->the_parent (ACE_ENV_SINGLE_ARG_PARAMETER);
      ACE_CHECK_RETURN (0);

      ++len;
    }

  // Empty adapter name sequence.
  PortableInterceptor::AdapterName *names = 0;
  ACE_NEW_THROW_EX (names,
                    PortableInterceptor::AdapterName (len),
                    CORBA::NO_MEMORY (
                      CORBA::SystemException::_tao_minor_code (
                        TAO_DEFAULT_MINOR_CODE,
                        ENOMEM),
                      CORBA::COMPLETED_NO));
  ACE_CHECK_RETURN (0);

  PortableInterceptor::AdapterName_var safe_names (names);

  names->length (len);

  poa = PortableServer::POA::_duplicate (this);

  (*names)[0] = CORBA::string_dup ("RootPOA");

  // Fill in the AdapterName sequence as the POA hierarchy is
  // traversed.
  CORBA::ULong ilen = len;
  for (CORBA::ULong i = 1; i < len; ++i)
    {
      (*names)[--ilen] = poa->the_name (ACE_ENV_SINGLE_ARG_PARAMETER);
      ACE_CHECK_RETURN (0);

      poa = poa->the_parent (ACE_ENV_SINGLE_ARG_PARAMETER);
      ACE_CHECK_RETURN (0);

      // If this condition asserts, the POA hierarchy was modified
      // (i.e. reduced in size) by another thread!
      ACE_ASSERT ((ilen > 0 ? !CORBA::is_nil (poa.in ()) : 1));
    }

  return safe_names._retn ();
}

void
TAO_POA::add_ior_component (TAO_MProfile & mprofile,
                            const IOP::TaggedComponent &component
                            ACE_ENV_ARG_DECL)
  ACE_THROW_SPEC ((CORBA::SystemException))
{
  // Add the given tagged component to all profiles.

  const CORBA::ULong profile_count = mprofile.profile_count ();

  for (CORBA::ULong i = 0; i < profile_count; ++i)
    {
      TAO_Profile *profile = mprofile.get_profile (i);

      profile->add_tagged_component (component
                                     ACE_ENV_ARG_PARAMETER);
      ACE_CHECK;
    }
}

void
TAO_POA::add_ior_component_to_profile (
    TAO_MProfile & mprofile,
    const IOP::TaggedComponent &component,
    IOP::ProfileId profile_id
    ACE_ENV_ARG_DECL)
  ACE_THROW_SPEC ((CORBA::SystemException))
{
  // Add the given tagged component to all profiles matching the given
  // ProfileId.

  int found_profile = 0;

  const CORBA::ULong profile_count = mprofile.profile_count ();

  for (CORBA::ULong i = 0; i < profile_count; ++i)
    {
      TAO_Profile *profile = mprofile.get_profile (i);

      if (profile->tag () == profile_id)
        {
          profile->add_tagged_component (component
                                         ACE_ENV_ARG_PARAMETER);
          ACE_CHECK;

          found_profile = 1;
        }
    }

  // According to the Portable Interceptor specification, we're
  // supposed to throw a CORBA::BAD_PARAM exception if no profile
  // matched the given ProfileId.
  if (found_profile == 0)
    ACE_THROW (CORBA::BAD_PARAM (CORBA::OMGVMCID | 29,
                                 CORBA::COMPLETED_NO));
}

void
TAO_POA::adapter_state_changed (
   const PortableInterceptor::ObjectReferenceTemplateSeq &seq_obj_ref_template,
   PortableInterceptor::AdapterState state
   ACE_ENV_ARG_DECL)
  ACE_THROW_SPEC ((CORBA::SystemException))
{
  /// First get a list of all the interceptors.
  TAO_IORInterceptor_List::TYPE &interceptors =
    this->orb_core_.ior_interceptors ();

  const size_t interceptor_count = interceptors.size ();

  if (interceptor_count == 0)
    return;

  for (size_t i = 0; i < interceptor_count; ++i)
    {
      interceptors[i]->adapter_state_changed (seq_obj_ref_template,
                                              state
                                              ACE_ENV_ARG_PARAMETER);
      ACE_CHECK;
    }
}

#if (TAO_HAS_MINIMUM_POA == 0)

PortableServer::ServantManager_ptr
TAO_POA::get_servant_manager_i (ACE_ENV_SINGLE_ARG_DECL)
  ACE_THROW_SPEC ((CORBA::SystemException,
                   PortableServer::POA::WrongPolicy))
{
  // This operation requires the USE_SERVANT_MANAGER policy; if not
  // present, the WrongPolicy exception is raised.
  if (this->cached_policies_.request_processing () != PortableServer::USE_SERVANT_MANAGER)
    {
      ACE_THROW_RETURN (PortableServer::POA::WrongPolicy (),
                        PortableServer::ServantManager::_nil ());
    }

  // This operation returns the servant manager associated with the
  // POA.  If no servant manager has been associated with the POA, it
  // returns a null reference.
  if (this->cached_policies_.servant_retention () == PortableServer::RETAIN)
    return PortableServer::ServantManager::_duplicate (this->servant_activator_.in ());
  else
    return PortableServer::ServantManager::_duplicate (this->servant_locator_.in ());
}

void
TAO_POA::set_servant_manager_i (PortableServer::ServantManager_ptr imgr
                                ACE_ENV_ARG_DECL)
  ACE_THROW_SPEC ((CORBA::SystemException,
                   PortableServer::POA::WrongPolicy))
{
  // This operation requires the USE_SERVANT_MANAGER policy; if not
  // present, the WrongPolicy exception is raised.
  if (this->cached_policies_.request_processing () != PortableServer::USE_SERVANT_MANAGER)
    {
      ACE_THROW (PortableServer::POA::WrongPolicy ());
    }

  // This operation sets the default servant manager associated with
  // the POA.
  if (this->cached_policies_.servant_retention () == PortableServer::RETAIN)
    {
      this->servant_activator_ = PortableServer::ServantActivator::_narrow (imgr
                                                                            ACE_ENV_ARG_PARAMETER);
      ACE_CHECK;

      if (CORBA::is_nil (this->servant_activator_.in ()))
        {
          ACE_THROW (PortableServer::POA::WrongPolicy ());
        }
    }
  else
    {
      this->servant_locator_ = PortableServer::ServantLocator::_narrow (imgr
                                                                        ACE_ENV_ARG_PARAMETER);
      ACE_CHECK;

      if (CORBA::is_nil (this->servant_locator_.in ()))
        {
          ACE_THROW (PortableServer::POA::WrongPolicy ());
        }
    }
}

PortableServer::Servant
TAO_POA::get_servant_i (ACE_ENV_SINGLE_ARG_DECL)
  ACE_THROW_SPEC ((CORBA::SystemException,
                   PortableServer::POA::NoServant,
                   PortableServer::POA::WrongPolicy))
{
  // This operation requires the USE_DEFAULT_SERVANT policy; if not
  // present, the WrongPolicy exception is raised.
  if (this->cached_policies_.request_processing () != PortableServer::USE_DEFAULT_SERVANT)
    {
      ACE_THROW_RETURN (PortableServer::POA::WrongPolicy (),
                        0);
    }

  // This operation returns the default servant associated with the
  // POA.
  PortableServer::Servant result = this->default_servant_.in ();
  if (result != 0)
    {
      // A recursive thread lock without using a recursive thread
      // lock.  Non_Servant_Upcall has a magic constructor and
      // destructor.  We unlock the Object_Adapter lock for the
      // duration of the servant activator upcalls; reacquiring once
      // the upcalls complete.  Even though we are releasing the lock,
      // other threads will not be able to make progress since
      // <Object_Adapter::non_servant_upcall_in_progress_> has been
      // set.
      TAO_Object_Adapter::Non_Servant_Upcall non_servant_upcall (*this);
      ACE_UNUSED_ARG (non_servant_upcall);

      // The POA invokes _add_ref once on the Servant before returning
      // it. If the application uses reference counting, the caller of
      // get_servant is responsible for invoking _remove_ref once on
      // the returned Servant when it is finished with it. A
      // conforming caller need not invoke _remove_ref on the returned
      // Servant if the type of the Servant uses the default reference
      // counting inherited from ServantBase.
      result->_add_ref (ACE_ENV_SINGLE_ARG_PARAMETER);
      ACE_CHECK_RETURN (0);

      return result;
    }
  else
    // If no servant has been associated with the POA, the NoServant
    // exception is raised.
    {
      ACE_THROW_RETURN (PortableServer::POA::NoServant (),
                        0);
    }
}

void
TAO_POA::set_servant_i (PortableServer::Servant servant
                        ACE_ENV_ARG_DECL)
  ACE_THROW_SPEC ((CORBA::SystemException,
                   PortableServer::POA::WrongPolicy))
{
  // This operation requires the USE_DEFAULT_SERVANT policy; if not
  // present, the WrongPolicy exception is raised.
  if (this->cached_policies_.request_processing () != PortableServer::USE_DEFAULT_SERVANT)
    {
      ACE_THROW (PortableServer::POA::WrongPolicy ());
    }

  // This operation registers the specified servant with the POA as
  // the default servant. This servant will be used for all requests
  // for which no servant is found in the Active Object Map.
  this->default_servant_ = servant;

  // The implementation of set_servant will invoke _add_ref at least
  // once on the Servant argument before returning. When the POA no
  // longer needs the Servant, it will invoke _remove_ref on it the
  // same number of times.
  if (servant != 0)
    {
      // A recursive thread lock without using a recursive thread
      // lock.  Non_Servant_Upcall has a magic constructor and
      // destructor.  We unlock the Object_Adapter lock for the
      // duration of the servant activator upcalls; reacquiring once
      // the upcalls complete.  Even though we are releasing the lock,
      // other threads will not be able to make progress since
      // <Object_Adapter::non_servant_upcall_in_progress_> has been
      // set.
      TAO_Object_Adapter::Non_Servant_Upcall non_servant_upcall (*this);
      ACE_UNUSED_ARG (non_servant_upcall);

      servant->_add_ref (ACE_ENV_SINGLE_ARG_PARAMETER);
      ACE_CHECK;
    }
}

#endif /* TAO_HAS_MINIMUM_POA == 0 */

int
TAO_POA::is_servant_in_map (PortableServer::Servant servant)
{
  while (1)
    {
      int deactivated = 0;
      int servant_in_map =
        this->active_object_map ().is_servant_in_map (servant,
                                                      deactivated);

      if (!servant_in_map)
        {
          return 0;
        }
      else
        {
          if (deactivated)
            {
              if (TAO_debug_level > 0)
                ACE_DEBUG ((LM_DEBUG,
                            ACE_TEXT ("(%t) TAO_POA::is_servant_in_map: waiting for servant to deactivate\n")));

              ++this->waiting_servant_deactivation_;

              if (this->object_adapter ().enable_locking_)
                this->servant_deactivation_condition_.wait ();

              --this->waiting_servant_deactivation_;
            }
          else
            {
              return 1;
            }
        }
    }
}

int
TAO_POA::is_user_id_in_map (const PortableServer::ObjectId &id,
                            CORBA::Short priority,
                            int &priorities_match)
{
  while (1)
    {
      int deactivated = 0;
      int user_id_in_map =
        this->active_object_map ().is_user_id_in_map (id,
                                                      priority,
                                                      priorities_match,
                                                      deactivated);

      if (!user_id_in_map)
        {
          return 0;
        }
      else
        {
          if (deactivated)
            {
              if (TAO_debug_level > 0)
                ACE_DEBUG ((LM_DEBUG,
                            ACE_TEXT ("(%t) TAO_POA::is_user_id_in_map: waiting for servant to deactivate\n")));

              ++this->waiting_servant_deactivation_;

              if (this->object_adapter ().enable_locking_)
                this->servant_deactivation_condition_.wait ();

              --this->waiting_servant_deactivation_;
            }
          else
            {
              return 1;
            }
        }
    }
}

PortableServer::ObjectId *
TAO_POA::activate_object_i (PortableServer::Servant servant,
                            CORBA::Short priority
                            ACE_ENV_ARG_DECL)
  ACE_THROW_SPEC ((CORBA::SystemException,
                   PortableServer::POA::ServantAlreadyActive,
                   PortableServer::POA::WrongPolicy))
{
  // This operation requires the SYSTEM_ID and RETAIN policy; if not
  // present, the WrongPolicy exception is raised.
  if (!(this->cached_policies_.id_assignment () == PortableServer::SYSTEM_ID &&
        this->cached_policies_.servant_retention () == PortableServer::RETAIN))
    {
      ACE_THROW_RETURN (PortableServer::POA::WrongPolicy (),
                        0);
    }

  // If the POA has the UNIQUE_ID policy and the specified servant is
  // already in the Active Object Map, the ServantAlreadyActive
  // exception is raised.
  if (this->cached_policies_.id_uniqueness () == PortableServer::UNIQUE_ID &&
      this->is_servant_in_map (servant))
    {
      ACE_THROW_RETURN (PortableServer::POA::ServantAlreadyActive (),
                        0);
    }

  // Otherwise, the activate_object operation generates an Object Id
  // and enters the Object Id and the specified servant in the Active
  // Object Map. The Object Id is returned.
  PortableServer::ObjectId_var user_id;
  if (this->active_object_map ().
      bind_using_system_id_returning_user_id (servant,
                                              priority,
                                              user_id.out ()) != 0)
    {
      ACE_THROW_RETURN (CORBA::OBJ_ADAPTER (),
                        0);
    }

  //
  // Everything is finally ok
  //

  // A recursive thread lock without using a recursive thread lock.
  // Non_Servant_Upcall has a magic constructor and destructor.  We
  // unlock the Object_Adapter lock for the duration of the servant
  // activator upcalls; reacquiring once the upcalls complete.  Even
  // though we are releasing the lock, other threads will not be able
  // to make progress since
  // <Object_Adapter::non_servant_upcall_in_progress_> has been set.
  TAO_Object_Adapter::Non_Servant_Upcall non_servant_upcall (*this);
  ACE_UNUSED_ARG (non_servant_upcall);

  // The implementation of activate_object will invoke _add_ref at
  // least once on the Servant argument before returning. When the POA
  // no longer needs the Servant, it will invoke _remove_ref on it the
  // same number of times.
  servant->_add_ref (ACE_ENV_SINGLE_ARG_PARAMETER);
  ACE_CHECK_RETURN (0);

  return user_id._retn ();
}

void
TAO_POA::activate_object_with_id_i (const PortableServer::ObjectId &id,
                                    PortableServer::Servant servant,
                                    CORBA::Short priority
                                    ACE_ENV_ARG_DECL)
  ACE_THROW_SPEC ((CORBA::SystemException,
                   PortableServer::POA::ServantAlreadyActive,
                   PortableServer::POA::ObjectAlreadyActive,
                   PortableServer::POA::WrongPolicy))
{
  // This operation requires the RETAIN policy; if not present, the
  // WrongPolicy exception is raised.
  if (this->cached_policies_.servant_retention () != PortableServer::RETAIN)
    {
      ACE_THROW (PortableServer::POA::WrongPolicy ());
    }

  // If the POA has the SYSTEM_ID policy and it detects that the
  // Object Id value was not generated by the system or for this POA,
  // the activate_object_with_id operation may raise the BAD_PARAM
  // system exception.  An ORB is not required to detect all such
  // invalid Object Id values, but a portable application must not
  // invoke activate_object_with_id on a POA that has the SYSTEM_ID
  // policy with an Object Id value that was not previously generated
  // by the system for that POA, or, if the POA also has the
  // PERSISTENT policy, for a previous instantiation of the same POA.
  if (this->cached_policies_.id_assignment () == PortableServer::SYSTEM_ID &&
      !this->is_poa_generated_id (id))
    {
      ACE_THROW (CORBA::BAD_PARAM ());
    }

  // If the CORBA object denoted by the Object Id value is already
  // active in this POA (there is a servant bound to it in the Active
  // Object Map), the ObjectAlreadyActive exception is raised.
  int priorities_match = 1;
  if (this->is_user_id_in_map (id,
                               priority,
                               priorities_match))
    {
      ACE_THROW (PortableServer::POA::ObjectAlreadyActive ());
    }

  // If the activate_object_with_id_and_priority operation is invoked
  // with a different priority to an earlier invocation of one of the
  // create reference with priority operations, for the same object,
  // then the ORB shall raise a BAD_INV_ORDER system exception (with a
  // Standard Minor Exception Code of 1). If the priority value is the
  // same then the ORB shall return SUCCESS.
  if (!priorities_match)
    {
      ACE_THROW (CORBA::BAD_INV_ORDER (CORBA::OMGVMCID | 1,
                                       CORBA::COMPLETED_NO));
    }

  // If the POA has the UNIQUE_ID policy and the servant is already in
  // the Active Object Map, the ServantAlreadyActive exception is
  // raised.
  if (this->cached_policies_.id_uniqueness () == PortableServer::UNIQUE_ID &&
      this->is_servant_in_map (servant))
    {
      ACE_THROW (PortableServer::POA::ServantAlreadyActive ());
    }

  // Otherwise, the activate_object_with_id operation enters an
  // association between the specified Object Id and the specified
  // servant in the Active Object Map.
  if (this->active_object_map ().bind_using_user_id (servant,
                                                     id,
                                                     priority) != 0)
    {
      ACE_THROW (CORBA::OBJ_ADAPTER ());
    }

  //
  // Everything is finally ok
  //

  // A recursive thread lock without using a recursive thread lock.
  // Non_Servant_Upcall has a magic constructor and destructor.  We
  // unlock the Object_Adapter lock for the duration of the servant
  // activator upcalls; reacquiring once the upcalls complete.  Even
  // though we are releasing the lock, other threads will not be able
  // to make progress since
  // <Object_Adapter::non_servant_upcall_in_progress_> has been set.
  TAO_Object_Adapter::Non_Servant_Upcall non_servant_upcall (*this);
  ACE_UNUSED_ARG (non_servant_upcall);

  // The implementation of activate_object_with_id will invoke
  // _add_ref at least once on the Servant argument before
  // returning. When the POA no longer needs the Servant, it will
  // invoke _remove_ref on it the same number of times.
  servant->_add_ref (ACE_ENV_SINGLE_ARG_PARAMETER);
  ACE_CHECK;
}

void
TAO_POA::deactivate_all_objects_i (CORBA::Boolean etherealize_objects,
                                   CORBA::Boolean wait_for_completion
                                   ACE_ENV_ARG_DECL)
  ACE_THROW_SPEC ((CORBA::SystemException,
                   PortableServer::POA::WrongPolicy))
{
  this->deactivate_all_objects_i (etherealize_objects
                                  ACE_ENV_ARG_PARAMETER);
  ACE_CHECK;

  this->wait_for_completions (wait_for_completion
                              ACE_ENV_ARG_PARAMETER);
  ACE_CHECK;
}

void
TAO_POA::wait_for_completions (CORBA::Boolean wait_for_completion
                               ACE_ENV_ARG_DECL)
{
  while (this->object_adapter ().enable_locking_ &&
         wait_for_completion &&
         this->outstanding_requests_ > 0)
    {
      this->wait_for_completion_pending_ = 1;

      int result = this->outstanding_requests_condition_.wait ();
      if (result == -1)
        {
          ACE_THROW (CORBA::OBJ_ADAPTER ());
        }
    }
}

/* static */
void
TAO_POA::check_for_valid_wait_for_completions (const TAO_ORB_Core &orb_core,
                                               CORBA::Boolean wait_for_completion
                                               ACE_ENV_ARG_DECL)
{
  if (wait_for_completion)
    {
      TAO_POA_Current_Impl *poa_current_impl =
        ACE_static_cast (TAO_POA_Current_Impl *,
                         TAO_TSS_RESOURCES::instance ()->poa_current_impl_);

      while (1)
        {
          // If wait_for_completion is TRUE and the current thread is
          // in an invocation context dispatched from some POA
          // belonging to the same ORB as this POA, the BAD_INV_ORDER
          // system exception with standard minor code 3 is raised and
          // POA destruction does not occur.
          if (poa_current_impl != 0)
            {
              if (&orb_core == &poa_current_impl->orb_core ())
                {
                  // CORBA 2.3 specifies which minor code corresponds
                  // to this particular problem.
                  ACE_THROW (CORBA::BAD_INV_ORDER (CORBA::OMGVMCID | 3,
                                                   CORBA::COMPLETED_NO));
                }
            }
          else
            break;

          poa_current_impl =
            poa_current_impl->previous_current_impl_;
        }
    }
}

void
TAO_POA::deactivate_all_objects_i (CORBA::Boolean etherealize_objects
                                   ACE_ENV_ARG_DECL)
  ACE_THROW_SPEC ((CORBA::SystemException,
                   PortableServer::POA::WrongPolicy))
{
  this->etherealize_objects_ = etherealize_objects;

  // This operation is a no-op for the non-RETAIN policy.
  if (this->cached_policies_.servant_retention () != PortableServer::RETAIN)
    {
      return;
    }

  // If the etherealize_objects parameter is TRUE, the POA has the
  // RETAIN policy, and a servant manager is registered with the POA,
  // the etherealize operation on the servant manager will be called
  // for each active object in the Active Object Map. The apparent
  // destruction of the POA occurs before any calls to etherealize are
  // made.  Thus, for example, an etherealize method that attempts to
  // invoke operations on the POA will receive the OBJECT_NOT_EXIST
  // exception.

  // We must copy the map entries into a separate place since we
  // cannot remove entries while iterating through the map.
  ACE_Array_Base<TAO_Active_Object_Map::Map_Entry *> map_entries
    (this->active_object_map ().current_size ());

  size_t counter = 0;
  TAO_Active_Object_Map::user_id_map::iterator end
    = this->active_object_map ().user_id_map_->end ();

  for (TAO_Active_Object_Map::user_id_map::iterator iter
         = this->active_object_map ().user_id_map_->begin ();
       iter != end;
       ++iter)
    {
      TAO_Active_Object_Map::user_id_map::value_type map_pair = *iter;
      TAO_Active_Object_Map::Map_Entry *active_object_map_entry = map_pair.second ();

      if (!active_object_map_entry->deactivated_)
        {
          map_entries[counter] = active_object_map_entry;
          ++counter;
        }
    }

  for (size_t i = 0;
       i < counter;
       ++i)
    {
      this->deactivate_map_entry (map_entries[i]
                                  ACE_ENV_ARG_PARAMETER);
      ACE_CHECK;
    }
}

void
TAO_POA::deactivate_object_i (const PortableServer::ObjectId &id
                              ACE_ENV_ARG_DECL)
  ACE_THROW_SPEC ((CORBA::SystemException,
                   PortableServer::POA::ObjectNotActive,
                   PortableServer::POA::WrongPolicy))
{
  // This operation requires the RETAIN policy; if not present, the
  // WrongPolicy exception is raised.
  if (this->cached_policies_.servant_retention () != PortableServer::RETAIN)
    {
      ACE_THROW (PortableServer::POA::WrongPolicy ());
    }

  TAO_Active_Object_Map::Map_Entry *active_object_map_entry = 0;
  int result = this->active_object_map ().find_servant_and_system_id_using_user_id (id,
                                                                                    active_object_map_entry);

  // If there is no active object associated with the specified Object
  // Id, the operation raises an ObjectNotActive exception.
  if (result != 0)
    {
      ACE_THROW (PortableServer::POA::ObjectNotActive ());
    }

  this->deactivate_map_entry (active_object_map_entry
                              ACE_ENV_ARG_PARAMETER);
  ACE_CHECK;
}

void
TAO_POA::deactivate_map_entry (TAO_Active_Object_Map::Map_Entry *active_object_map_entry
                               ACE_ENV_ARG_DECL)
{
  // Decrement the reference count.
  CORBA::UShort new_count = --active_object_map_entry->reference_count_;

  if (new_count == 0)
    {
      this->cleanup_servant (active_object_map_entry
                             ACE_ENV_ARG_PARAMETER);
      ACE_CHECK;
    }
  else
    {
      // It should be noted that there may be a period of time between
      // an object's deactivation and the etherealization (during
      // which outstanding requests are being processed) in which
      // arriving requests on that object should not be passed to its
      // servant. During this period, requests targeted for such an
      // object act as if the POA were in holding state until
      // etherealize completes. If etherealize is called as a
      // consequence of a deactivate call with a etherealize_objects
      // parameter of TRUE, incoming requests are rejected.

      // Else mark entry as closed...
      active_object_map_entry->deactivated_ = 1;
    }
}

void
TAO_POA::cleanup_servant (TAO_Active_Object_Map::Map_Entry *active_object_map_entry
                          ACE_ENV_ARG_DECL)
{
  // If a servant manager is associated with the POA,
  // ServantLocator::etherealize will be invoked with the oid and the
  // servant. (The deactivate_object operation does not wait for the
  // etherealize operation to complete before deactivate_object
  // returns.)
  //
  // Note: If the servant associated with the oid is serving multiple
  // Object Ids, ServantLocator::etherealize may be invoked multiple
  // times with the same servant when the other objects are
  // deactivated. It is the responsibility of the object
  // implementation to refrain from destroying the servant while it is
  // active with any Id.

  // If the POA has no ServantActivator associated with it, the POA
  // implementation calls _remove_ref when all operation invocations
  // have completed. If there is a ServantActivator, the Servant is
  // consumed by the call to ServantActivator::etherealize instead.

  // First check for a non-zero servant.
  if (active_object_map_entry->servant_)
    {

#if (TAO_HAS_MINIMUM_POA == 0)

      if (this->etherealize_objects_ &&
          this->cached_policies_.request_processing () == PortableServer::USE_SERVANT_MANAGER &&
          !CORBA::is_nil (this->servant_activator_.in ()))
        {
          CORBA::Boolean remaining_activations =
            this->active_object_map ().remaining_activations (active_object_map_entry->servant_);

          // A recursive thread lock without using a recursive thread
          // lock.  Non_Servant_Upcall has a magic constructor and
          // destructor.  We unlock the Object_Adapter lock for the
          // duration of the servant activator upcalls; reacquiring
          // once the upcalls complete.  Even though we are releasing
          // the lock, other threads will not be able to make progress
          // since <Object_Adapter::non_servant_upcall_in_progress_>
          // has been set.
          TAO_Object_Adapter::Non_Servant_Upcall non_servant_upcall (*this);
          ACE_UNUSED_ARG (non_servant_upcall);

          // If the cleanup_in_progress parameter is TRUE, the reason
          // for the etherealize operation is that either the
          // deactivate or destroy operation was called with an
          // etherealize_objects parameter of TRUE. If the parameter
          // is FALSE, the etherealize operation is called for other
          // reasons.
          this->servant_activator_->etherealize (active_object_map_entry->user_id_,
                                                 this,
                                                 active_object_map_entry->servant_,
                                                 this->cleanup_in_progress_,
                                                 remaining_activations
                                                 ACE_ENV_ARG_PARAMETER);
          ACE_CHECK;
        }
      else

#endif /* TAO_HAS_MINIMUM_POA == 0 */

        {
          // A recursive thread lock without using a recursive thread
          // lock.  Non_Servant_Upcall has a magic constructor and
          // destructor.  We unlock the Object_Adapter lock for the
          // duration of the servant activator upcalls; reacquiring
          // once the upcalls complete.  Even though we are releasing
          // the lock, other threads will not be able to make progress
          // since <Object_Adapter::non_servant_upcall_in_progress_>
          // has been set.
          TAO_Object_Adapter::Non_Servant_Upcall non_servant_upcall (*this);
          ACE_UNUSED_ARG (non_servant_upcall);

          active_object_map_entry->servant_->_remove_ref (ACE_ENV_SINGLE_ARG_PARAMETER);
          ACE_CHECK;
        }
    }

  // This operation causes the association of the Object Id specified
  // by the oid parameter and its servant to be removed from the
  // Active Object Map.
  int result = this->active_object_map ().unbind_using_user_id (active_object_map_entry->user_id_);

  if (result != 0)
    {
      ACE_THROW (CORBA::OBJ_ADAPTER ());
    }
}

void
TAO_POA::check_poa_manager_state (ACE_ENV_SINGLE_ARG_DECL)
{
  PortableServer::POAManager::State state = this->poa_manager_.get_state_i ();

  if (state == PortableServer::POAManager::ACTIVE)
    {
      // When a POA manager is in the active state, the associated
      // POAs will receive and start processing requests (assuming
      // that appropriate thread resources are available).
      return;
    }

  if (state == PortableServer::POAManager::DISCARDING)
    {
      // When a POA manager is in the discarding state, the associated
      // POAs will discard all incoming requests (whose processing has
      // not yet begun). When a request is discarded, the TRANSIENT
      // system exception, with standard minor code 1, must be
      // returned to the client-side to indicate that the request
      // should be re-issued. (Of course, an ORB may always reject a
      // request for other reasons and raise some other system
      // exception.)
      ACE_THROW (
        CORBA::TRANSIENT (
          CORBA::SystemException::_tao_minor_code (
            TAO_POA_DISCARDING,
            1),
          CORBA::COMPLETED_NO));
    }

  if (state == PortableServer::POAManager::HOLDING)
    {
      // When a POA manager is in the holding state, the associated
      // POAs will queue incoming requests. The number of requests
      // that can be queued is an implementation limit. If this limit
      // is reached, the POAs may discard requests and return the
      // TRANSIENT system exception, with standard minor code 1, to
      // the client to indicate that the client should reissue the
      // request. (Of course, an ORB may always reject a request for
      // other reasons and raise some other system exception.)

      // Since there is no queuing in TAO, we immediately raise a
      // TRANSIENT exception.
      ACE_THROW (CORBA::TRANSIENT (
        CORBA::SystemException::_tao_minor_code (
          TAO_POA_HOLDING,
          1),
        CORBA::COMPLETED_NO));
    }

  if (state == PortableServer::POAManager::INACTIVE)
    {
      // The inactive state is entered when the associated POAs are to
      // be shut down. Unlike the discarding state, the inactive state
      // is not a temporary state. When a POA manager is in the
      // inactive state, the associated POAs will reject new
      // requests. The rejection mechanism used is specific to the

      // vendor. The GIOP location forwarding mechanism and
      // CloseConnection message are examples of mechanisms that could
      // be used to indicate the rejection. If the client is
      // co-resident in the same process, the ORB could raise the
      // OBJ_ADAPTER system exception, with standard minor code 1, to
      // indicate that the object implementation is unavailable.
      ACE_THROW (CORBA::OBJ_ADAPTER (
        CORBA::SystemException::_tao_minor_code (
          TAO_POA_INACTIVE,
          1),
        CORBA::COMPLETED_NO));
    }
}

CORBA::Object_ptr
TAO_POA::create_reference_i (const char *intf,
                             CORBA::Short priority
                             ACE_ENV_ARG_DECL)
  ACE_THROW_SPEC ((CORBA::SystemException,
                   PortableServer::POA::WrongPolicy))
{
  // This operation requires the SYSTEM_ID policy; if not present, the
  // WrongPolicy exception is raised.
  if (this->cached_policies_.id_assignment () != PortableServer::SYSTEM_ID)
    {
      ACE_THROW_RETURN (PortableServer::POA::WrongPolicy (),
                        CORBA::Object::_nil ());
    }

  // This operation creates an object reference that encapsulates a
  // POA-generated Object Id value and the specified interface
  // repository id. This operation does not cause an activation to
  // take place. The resulting reference may be passed to clients, so
  // that subsequent requests on those references will cause the
  // appropriate servant manager to be invoked, if one is
  // available. The generated Object Id value may be obtained by
  // invoking POA::reference_to_id with the created reference.

  PortableServer::ObjectId_var system_id;
  PortableServer::ObjectId user_id;

  // Do the following if we going to retain this object in the active
  // object map.
  if (this->cached_policies_.servant_retention () == PortableServer::RETAIN)
    {
      if (this->active_object_map ().
          bind_using_system_id_returning_system_id (0,
                                                    priority,
                                                    system_id.out ()) != 0)
        {
          ACE_THROW_RETURN (CORBA::OBJ_ADAPTER (),
                            CORBA::Object::_nil ());
        }

      // Find user id from system id.
      if (this->active_object_map ().
          find_user_id_using_system_id (system_id.in (),
                                        user_id) != 0)
        {
          ACE_THROW_RETURN (CORBA::OBJ_ADAPTER (),
                            CORBA::Object::_nil ());
        }
    }
  else
    {
      // Otherwise, it is the NON_RETAIN policy.  Therefore, any ol'
      // object id will do (even an empty one).
      PortableServer::ObjectId *sys_id;
      ACE_NEW_THROW_EX (sys_id,
                        PortableServer::ObjectId,
                        CORBA::NO_MEMORY ());
      ACE_CHECK_RETURN (CORBA::Object::_nil ());

      system_id = sys_id;

      // User id is the same as system id.
      user_id = system_id.in ();
    }

  // Remember params for potentially invoking <key_to_object> later.
  this->key_to_object_params_.set (system_id,
                                   intf,
                                   0,
                                   1,
                                   priority);

  const PortableInterceptor::ObjectId &user_oid =
    ACE_reinterpret_cast (const PortableInterceptor::ObjectId &,
                          user_id);

  // Ask the ORT to create the object.
  return this->obj_ref_factory_->make_object (intf,
                                              user_oid
                                              ACE_ENV_ARG_PARAMETER);
}

CORBA::Object_ptr
TAO_POA::create_reference_with_id_i (const PortableServer::ObjectId &user_id,
                                     const char *intf,
                                     CORBA::Short priority
                                     ACE_ENV_ARG_DECL)
  ACE_THROW_SPEC ((CORBA::SystemException,
                   PortableServer::POA::WrongPolicy))
{
  // If the POA has the SYSTEM_ID policy and it detects that the
  // Object Id value was not generated by the system or for this POA,
  // the create_reference_with_id operation may raise the BAD_PARAM
  // system exception. An ORB is not required to detect all such
  // invalid Object Id values, but a portable application must not
  // invoke this operation on a POA that has the SYSTEM_ID policy with
  // an Object Id value that was not previously generated by the
  // system for that POA, or, if the POA also has the PERSISTENT
  // policy, for a previous instantiation of the same POA.
  if (this->cached_policies_.id_assignment () == PortableServer::SYSTEM_ID &&
      !this->is_poa_generated_id (user_id))
    {
      ACE_THROW_RETURN (CORBA::BAD_PARAM (),
                        CORBA::Object::_nil ());
    }

  // This operation creates an object reference that encapsulates the
  // specified Object Id and interface repository Id values. This
  // operation does not cause an activation to take place.  The
  // resulting reference may be passed to clients, so that subsequent
  // requests on those references will cause the object to be
  // activated if necessary, or the default servant used, depending on
  // the applicable policies.

  PortableServer::Servant servant = 0;
  PortableServer::ObjectId_var system_id;

  // Do the following if we going to retain this object in the active
  // object map.
  if (this->cached_policies_.servant_retention () == PortableServer::RETAIN)
    {
      // @@ We need something that can find the system id using
      // appropriate strategy, at the same time, return the servant if
      // one is available.  Before we have that function,
      // <create_reference_with_id_i> basically generates broken
      // collocated object when DIRECT collocation strategy is used.

      if (this->active_object_map ().find_system_id_using_user_id (user_id,
                                                                   priority,
                                                                   system_id.out ()) != 0)
        {
          ACE_THROW_RETURN (CORBA::OBJ_ADAPTER (),
                            CORBA::Object::_nil ());
        }
    }
  else
    {
      // Otherwise, it is the NON_RETAIN policy.  Therefore, user id
      // is the same as system id.
      PortableServer::ObjectId *sys_id;
      ACE_NEW_THROW_EX (sys_id,
                        PortableServer::ObjectId (user_id),
                        CORBA::NO_MEMORY ());
      ACE_CHECK_RETURN (CORBA::Object::_nil ());

      system_id = sys_id;
    }

  // Remember params for potentially invoking <key_to_object> later.
  this->key_to_object_params_.set (system_id,
                                   intf,
                                   servant,
                                   1,
                                   priority);

  const PortableInterceptor::ObjectId &user_oid =
    ACE_reinterpret_cast (const PortableInterceptor::ObjectId &,
                          user_id);

  // Ask the ORT to create the object.
  return this->obj_ref_factory_->make_object (intf,
                                              user_oid
                                              ACE_ENV_ARG_PARAMETER);
}

PortableServer::ObjectId *
TAO_POA::servant_to_id_i (PortableServer::Servant servant
                          ACE_ENV_ARG_DECL)
  ACE_THROW_SPEC ((CORBA::SystemException,
                   PortableServer::POA::ServantNotActive,
                   PortableServer::POA::WrongPolicy))
{
  // This operation requires the RETAIN and either the UNIQUE_ID or
  // IMPLICIT_ACTIVATION policies; or it requires the USE_DEFAULT_SERVANT
  // policy; if not present, the WrongPolicy exception is raised.
  if (!(this->cached_policies_.servant_retention () == PortableServer::RETAIN
        && (this->cached_policies_.id_uniqueness () == PortableServer::UNIQUE_ID
            || this->cached_policies_.implicit_activation () == PortableServer::IMPLICIT_ACTIVATION))
      && !(this->cached_policies_.request_processing () == PortableServer::USE_DEFAULT_SERVANT))
    {
      ACE_THROW_RETURN (PortableServer::POA::WrongPolicy (),
                        0);
    }

  // This operation has four possible behaviors.

  // If the POA has the UNIQUE_ID policy and the specified servant is
  // active, the Object Id associated with that servant is returned.
  PortableServer::ObjectId_var user_id;
  if (this->cached_policies_.id_uniqueness () == PortableServer::UNIQUE_ID &&
      this->active_object_map ().find_user_id_using_servant (servant,
                                                             user_id.out ()) != -1)
    {
      return user_id._retn ();
    }

  // If the POA has the IMPLICIT_ACTIVATION policy and either the POA
  // has the MULTIPLE_ID policy or the specified servant is not
  // active, the servant is activated using a POA-generated Object Id
  // and the Interface Id associated with the servant, and that Object
  // Id is returned.
  if (this->cached_policies_.implicit_activation () == PortableServer::IMPLICIT_ACTIVATION)
    {
      // If we reach here, then we either have the MULTIPLE_ID policy
      // or we have the UNIQUE_ID policy and we are not in the active
      // object map.
      PortableServer::ObjectId_var user_id;
      if (this->active_object_map ().
          bind_using_system_id_returning_user_id (servant,
                                                  this->cached_policies_.server_priority (),
                                                  user_id.out ()) != 0)
        {
          ACE_THROW_RETURN (CORBA::OBJ_ADAPTER (),
                            0);
        }

      //
      // Everything is finally ok
      //

      // A recursive thread lock without using a recursive thread
      // lock.  Non_Servant_Upcall has a magic constructor and
      // destructor.  We unlock the Object_Adapter lock for the
      // duration of the servant activator upcalls; reacquiring once
      // the upcalls complete.  Even though we are releasing the lock,
      // other threads will not be able to make progress since
      // <Object_Adapter::non_servant_upcall_in_progress_> has been
      // set.
      TAO_Object_Adapter::Non_Servant_Upcall non_servant_upcall (*this);
      ACE_UNUSED_ARG (non_servant_upcall);

      // If this operation causes the object to be activated, _add_ref
      // is invoked at least once on the Servant argument before
      // returning. Otherwise, the POA does not increment or decrement
      // the reference count of the Servant passed to this function.
      servant->_add_ref (ACE_ENV_SINGLE_ARG_PARAMETER);
      ACE_CHECK_RETURN (0);

      return user_id._retn ();
    }

#if (TAO_HAS_MINIMUM_POA == 0)

  // If the POA has the USE_DEFAULT_SERVANT policy, the servant
  // specified is the default servant, and the operation is being
  // invoked in he context of executin a request on the default
  // servant, then the ObjectId associated with the current invocation
  // is returned.
  if (this->cached_policies_.request_processing () == PortableServer::USE_DEFAULT_SERVANT)
    {
      // Compare the servant specified in the parameter list to the
      // default servant registered with this POA.
      PortableServer::Servant default_servant = this->default_servant_.in ();
      if (default_servant != 0 &&
          default_servant == servant)
        {
          // If they are the same servant, then check if we are in an
          // upcall.
          TAO_POA_Current_Impl *poa_current_impl =
            ACE_static_cast(TAO_POA_Current_Impl *,
                            TAO_TSS_RESOURCES::instance ()->poa_current_impl_);
          // If we are in an upcall on the default servant, return the
          // ObjectId associated with the current invocation.
          if (poa_current_impl != 0 &&
              servant == poa_current_impl->servant ())
            {
              return poa_current_impl->get_object_id (ACE_ENV_SINGLE_ARG_PARAMETER);
            }
        }
    }

#endif /* TAO_HAS_MINIMUM_POA == 0 */

  // Otherwise, the ServantNotActive exception is raised.
  ACE_THROW_RETURN (PortableServer::POA::ServantNotActive (),
                    0);
}

PortableServer::ObjectId *
TAO_POA::servant_to_system_id_i (PortableServer::Servant servant,
                                 CORBA::Short &priority
                                 ACE_ENV_ARG_DECL)
  ACE_THROW_SPEC ((CORBA::SystemException,
                   PortableServer::POA::ServantNotActive,
                   PortableServer::POA::WrongPolicy))
{
  // This operation requires the RETAIN and either the UNIQUE_ID or
  // IMPLICIT_ACTIVATION policies; if not present, the WrongPolicy
  // exception is raised.
  if (!(this->cached_policies_.servant_retention () == PortableServer::RETAIN
        && (this->cached_policies_.id_uniqueness () == PortableServer::UNIQUE_ID
            || this->cached_policies_.implicit_activation () == PortableServer::IMPLICIT_ACTIVATION)))
    {
      ACE_THROW_RETURN (PortableServer::POA::WrongPolicy (),
                        0);
    }

  // This operation has three possible behaviors.

  // If the POA has the UNIQUE_ID policy and the specified servant is
  // active, the Object Id associated with that servant is returned.
  PortableServer::ObjectId_var system_id;
  if (this->cached_policies_.id_uniqueness () == PortableServer::UNIQUE_ID &&
      this->active_object_map ().find_system_id_using_servant (servant,
                                                               system_id.out (),
                                                               priority) != -1)
    {
      return system_id._retn ();
    }

  // If the POA has the IMPLICIT_ACTIVATION policy and either the POA
  // has the MULTIPLE_ID policy or the specified servant is not
  // active, the servant is activated using a POA-generated Object Id
  // and the Interface Id associated with the servant, and that Object
  // Id is returned.
  if (this->cached_policies_.implicit_activation () == PortableServer::IMPLICIT_ACTIVATION)
    {
      // If we reach here, then we either have the MULTIPLE_ID policy
      // or we xhave the UNIQUE_ID policy and we are not in the active
      // object map.
      PortableServer::ObjectId_var system_id;
      if (this->active_object_map ().
          bind_using_system_id_returning_system_id (servant,
                                                    priority,
                                                    system_id.out ()) != 0)
        {
          ACE_THROW_RETURN (CORBA::OBJ_ADAPTER (),
                            0);
        }

      //
      // Everything is finally ok
      //

      // A recursive thread lock without using a recursive thread
      // lock.  Non_Servant_Upcall has a magic constructor and
      // destructor.  We unlock the Object_Adapter lock for the
      // duration of the servant activator upcalls; reacquiring once
      // the upcalls complete.  Even though we are releasing the lock,
      // other threads will not be able to make progress since
      // <Object_Adapter::non_servant_upcall_in_progress_> has been
      // set.
      TAO_Object_Adapter::Non_Servant_Upcall non_servant_upcall (*this);
      ACE_UNUSED_ARG (non_servant_upcall);

      // If this operation causes the object to be activated, _add_ref
      // is invoked at least once on the Servant argument before
      // returning. Otherwise, the POA does not increment or decrement
      // the reference count of the Servant passed to this function.
      servant->_add_ref (ACE_ENV_SINGLE_ARG_PARAMETER);
      ACE_CHECK_RETURN (0);

      return system_id._retn ();
    }

  // Otherwise, the ServantNotActive exception is raised.
  ACE_THROW_RETURN (PortableServer::POA::ServantNotActive (),
                    0);
}

CORBA::Object_ptr
TAO_POA::servant_to_reference (PortableServer::Servant servant
                               ACE_ENV_ARG_DECL)
  ACE_THROW_SPEC ((CORBA::SystemException,
                   PortableServer::POA::ServantNotActive,
                   PortableServer::POA::WrongPolicy))
{
  // Note: The allocation of an Object Id value and installation in
  // the Active Object Map caused by implicit activation may actually
  // be deferred until an attempt is made to externalize the
  // reference. The real requirement here is that a reference is
  // produced that will behave appropriately (that is, yield a
  // consistent Object Id value when asked politely).
  CORBA::Short priority =
    this->cached_policies_.server_priority ();
  PortableServer::ObjectId_var system_id =
    this->servant_to_system_id (servant,
                                priority
                                ACE_ENV_ARG_PARAMETER);
  ACE_CHECK_RETURN (CORBA::Object::_nil ());

  PortableServer::ObjectId user_id;

  // This operation requires the RETAIN, therefore don't worry about
  // the NON_RETAIN case.
  if (this->active_object_map ().
      find_user_id_using_system_id (system_id.in (),
                                    user_id) != 0)
    {
      ACE_THROW_RETURN (CORBA::OBJ_ADAPTER (),
                        CORBA::Object::_nil ());
    }

  // Remember params for potentially invoking <key_to_object> later.
  this->key_to_object_params_.set (system_id,
                                   servant->_interface_repository_id (),
                                   servant,
                                   1,
                                   priority);

  const PortableInterceptor::ObjectId &user_oid =
    ACE_reinterpret_cast (const PortableInterceptor::ObjectId &,
                          user_id);

  // Ask the ORT to create the object.
  return this->obj_ref_factory_->make_object (servant->_interface_repository_id (),
                                              user_oid
                                              ACE_ENV_ARG_PARAMETER);
}

PortableServer::Servant
TAO_POA::reference_to_servant_i (CORBA::Object_ptr reference
                                 ACE_ENV_ARG_DECL)
  ACE_THROW_SPEC ((CORBA::SystemException,
                   PortableServer::POA::ObjectNotActive,
                   PortableServer::POA::WrongAdapter,
                   PortableServer::POA::WrongPolicy))
{
  // This operation requires the RETAIN policy or the
  // USE_DEFAULT_SERVANT policy. If neither policy is present, the
  // WrongPolicy exception is raised.
  if (this->cached_policies_.servant_retention () != PortableServer::RETAIN &&
      this->cached_policies_.request_processing () != PortableServer::USE_DEFAULT_SERVANT)
    {
      ACE_THROW_RETURN (PortableServer::POA::WrongPolicy (),
                        0);
    }

  // Make sure that the reference is valid.
  if (CORBA::is_nil (reference))
    {
      ACE_THROW_RETURN (CORBA::BAD_PARAM (),
                        0);
    }

  // If the POA has the RETAIN policy and the specified object is
  // present in the Active Object Map, this operation returns the
  // servant associated with that object in the Active Object Map.
  PortableServer::Servant servant = 0;
  int result = -1;
  if (this->cached_policies_.servant_retention () == PortableServer::RETAIN)
    {
      TAO::ObjectKey_var key = reference->_key (ACE_ENV_SINGLE_ARG_PARAMETER);
      ACE_CHECK_RETURN (0);

      // If the object reference was not created by this POA, the
      // WrongAdapter exception is raised.
      PortableServer::ObjectId system_id;
      TAO_Object_Adapter::poa_name poa_system_name;
      CORBA::Boolean is_root = 0;
      CORBA::Boolean is_persistent = 0;
      CORBA::Boolean is_system_id = 0;
      TAO_Temporary_Creation_Time poa_creation_time;

      int parse_result =
        this->parse_key (key.in (),
                         poa_system_name,
                         system_id,
                         is_root,
                         is_persistent,
                         is_system_id,
                         poa_creation_time);
      if (parse_result != 0 ||
          !this->root () &&
          poa_system_name != this->system_name () ||
          is_root != this->root () ||
          is_persistent != this->persistent () ||
          is_system_id != this->system_id () ||
          !this->persistent () &&
          poa_creation_time != this->creation_time_)
        {
          ACE_THROW_RETURN (PortableServer::POA::WrongAdapter (),
                            0);
        }

      // Find user id from system id.
      PortableServer::ObjectId user_id;
      if (this->active_object_map ().find_user_id_using_system_id (system_id,
                                                                   user_id) != 0)
        {
          ACE_THROW_RETURN (CORBA::OBJ_ADAPTER (),
                            0);
        }

      // This operation returns the active servant associated with the
      // specified system Object Id value.  If the Object Id value is
      // not active in the POA, an ObjectNotActive exception is
      // raised.
      TAO_Active_Object_Map::Map_Entry *entry = 0;

      result =
        this->active_object_map ().find_servant_using_system_id_and_user_id (system_id,
                                                                             user_id,
                                                                             servant,
                                                                             entry);
    }

#if (TAO_HAS_MINIMUM_POA == 0)

  else
    {
      // Otherwise, if the POA has the USE_DEFAULT_SERVANT policy and
      // a default servant has been registered with the POA, this
      // operation returns the default servant.
      servant =
        this->default_servant_.in ();

      if (servant == 0)
        result = -1;
      else
        result = 0;
    }

#endif /* TAO_HAS_MINIMUM_POA == 0 */

  if (result != -1)
    {
      // A recursive thread lock without using a recursive thread
      // lock.  Non_Servant_Upcall has a magic constructor and
      // destructor.  We unlock the Object_Adapter lock for the
      // duration of the servant activator upcalls; reacquiring once
      // the upcalls complete.  Even though we are releasing the lock,
      // other threads will not be able to make progress since
      // <Object_Adapter::non_servant_upcall_in_progress_> has been
      // set.
      TAO_Object_Adapter::Non_Servant_Upcall non_servant_upcall (*this);
      ACE_UNUSED_ARG (non_servant_upcall);

      // The POA invokes _add_ref once on the Servant before returning
      // it. If the application uses reference counting, the caller of
      // id_to_servant is responsible for invoking _remove_ref once on
      // the returned Servant when it is finished with it. A
      // conforming caller need not invoke _remove_ref on the returned
      // Servant if the type of the Servant uses the default reference
      // counting inherited from ServantBase.
      servant->_add_ref (ACE_ENV_SINGLE_ARG_PARAMETER);
      ACE_CHECK_RETURN (0);

      return servant;
    }
  else
    {
      // Otherwise the ObjectNotActive exception is raised.
      ACE_THROW_RETURN (PortableServer::POA::ObjectNotActive (),
                        0);
    }
}

PortableServer::ObjectId *
TAO_POA::reference_to_id (CORBA::Object_ptr reference
                          ACE_ENV_ARG_DECL)
  ACE_THROW_SPEC ((CORBA::SystemException,
                   PortableServer::POA::WrongAdapter,
                   PortableServer::POA::WrongPolicy))
{
  // Make sure that the reference is valid.
  if (CORBA::is_nil (reference))
    {
      ACE_THROW_RETURN (CORBA::BAD_PARAM (),
                        0);
    }

  // The WrongPolicy exception is declared to allow future extensions.

  // This operation returns the Object Id value encapsulated by the
  // specified reference.

  // This operation is valid only if the reference was created by the
  // POA on which the operation is being performed.  If the object
  // reference was not created by this POA, the WrongAdapter exception
  // is raised.
  TAO::ObjectKey_var key = reference->_key (ACE_ENV_SINGLE_ARG_PARAMETER);
  ACE_CHECK_RETURN (0);

  PortableServer::ObjectId system_id;
  TAO_Object_Adapter::poa_name poa_system_name;
  CORBA::Boolean is_root = 0;
  CORBA::Boolean is_persistent = 0;
  CORBA::Boolean is_system_id = 0;
  TAO_Temporary_Creation_Time poa_creation_time;

  int result = this->parse_key (key.in (),
                                poa_system_name,
                                system_id,
                                is_root,
                                is_persistent,
                                is_system_id,
                                poa_creation_time);
  if (result != 0 ||
      !this->root () &&
      poa_system_name != this->system_name () ||
      is_root != this->root () ||
      is_persistent != this->persistent () ||
      is_system_id != this->system_id () ||
      !this->persistent () &&
      poa_creation_time != this->creation_time_)
    {
      ACE_THROW_RETURN (PortableServer::POA::WrongAdapter (),
                        0);
    }

  // Do the following if we have the RETAIN policy.
  if (this->cached_policies_.servant_retention () == PortableServer::RETAIN)
    {
      // Lock access for the duration of this transaction.
      TAO_POA_GUARD_RETURN (0);

      // The object denoted by the reference does not have to be
      // active for this operation to succeed.
      PortableServer::ObjectId_var user_id;
      if (this->active_object_map ().find_user_id_using_system_id (system_id,
                                                                   user_id.out ()) != 0)
        {
          ACE_THROW_RETURN (CORBA::OBJ_ADAPTER (),
                            0);
        }

      return user_id._retn ();
    }
  else
    {
      // Otherwise, it is the NON_RETAIN policy.  Therefore, the
      // system id is the id (and no conversion/transformation is
      // needed).
      return new PortableServer::ObjectId (system_id);
    }
}

PortableServer::Servant
TAO_POA::id_to_servant_i (const PortableServer::ObjectId &id
                          ACE_ENV_ARG_DECL)
  ACE_THROW_SPEC ((CORBA::SystemException,
                   PortableServer::POA::ObjectNotActive,
                   PortableServer::POA::WrongPolicy))
{
  // This operation requires the RETAIN policy or the
  // USE_DEFAULT_SERVANT policy.  If neither policy is present, the
  // WrongPolicy exception is raised.
  if (this->cached_policies_.servant_retention () != PortableServer::RETAIN &&
      this->cached_policies_.request_processing () != PortableServer::USE_DEFAULT_SERVANT)
    {
      ACE_THROW_RETURN (PortableServer::POA::WrongPolicy (),
                        0);
    }

  // If the POA has the RETAIN policy and the specified ObjectId is in
  // the Active Object Map, this operation returns the servant
  // associated with that object in the Active Object Map.
  PortableServer::Servant servant = 0;
  int result = -1;
  if (this->cached_policies_.servant_retention () == PortableServer::RETAIN)
    {
      result =
        this->active_object_map ().find_servant_using_user_id (id,
                                                               servant);
    }

#if (TAO_HAS_MINIMUM_POA == 0)

  else
    {
      // Otherwise, if the POA has the USE_DEFAULT_SERVANT policy and
      // a default servant has been registered with the POA, this
      // operation returns the default servant.
      servant =
        this->default_servant_.in ();

      if (servant == 0)
        result = -1;
      else
        result = 0;
    }

#endif /* TAO_HAS_MINIMUM_POA == 0 */

  if (result != -1)
    {
      // A recursive thread lock without using a recursive thread
      // lock.  Non_Servant_Upcall has a magic constructor and
      // destructor.  We unlock the Object_Adapter lock for the
      // duration of the servant activator upcalls; reacquiring once
      // the upcalls complete.  Even though we are releasing the lock,
      // other threads will not be able to make progress since
      // <Object_Adapter::non_servant_upcall_in_progress_> has been
      // set.
      TAO_Object_Adapter::Non_Servant_Upcall non_servant_upcall (*this);
      ACE_UNUSED_ARG (non_servant_upcall);

      // The POA invokes _add_ref once on the Servant before returning
      // it. If the application uses reference counting, the caller of
      // id_to_servant is responsible for invoking _remove_ref once on
      // the returned Servant when it is finished with it. A
      // conforming caller need not invoke _remove_ref on the returned
      // Servant if the type of the Servant uses the default reference
      // counting inherited from ServantBase.
      servant->_add_ref (ACE_ENV_SINGLE_ARG_PARAMETER);
      ACE_CHECK_RETURN (0);

      return servant;
    }
  else
    {
      // Otherwise the ObjectNotActive exception is raised.
      ACE_THROW_RETURN (PortableServer::POA::ObjectNotActive (),
                        0);
    }
}

CORBA::Object_ptr
TAO_POA::id_to_reference_i (const PortableServer::ObjectId &id
                            ACE_ENV_ARG_DECL)
  ACE_THROW_SPEC ((CORBA::SystemException,
                   PortableServer::POA::ObjectNotActive,
                   PortableServer::POA::WrongPolicy))
{
  // This operation requires the RETAIN policy; if not present, the
  // WrongPolicy exception is raised.
  if (this->cached_policies_.servant_retention () != PortableServer::RETAIN)
    {
      ACE_THROW_RETURN (PortableServer::POA::WrongPolicy (),
                        CORBA::Object::_nil ());
    }

  // If an object with the specified Object Id value is currently
  // active, a reference encapsulating the information used to
  // activate the object is returned.
  PortableServer::ObjectId_var system_id;
  PortableServer::Servant servant;
  CORBA::Short priority;

  if (this->active_object_map ().find_servant_and_system_id_using_user_id (
        id,
        servant,
        system_id.out (),
        priority) == 0)
    {
      // Remember params for potentially invoking <key_to_object> later.
      this->key_to_object_params_.set (system_id,
                                       servant->_interface_repository_id (),
                                       servant,
                                       1,
                                       priority);

      const PortableInterceptor::ObjectId &user_oid =
        ACE_reinterpret_cast (const PortableInterceptor::ObjectId &,
                              id);

      // Ask the ORT to create the object.
      return this->obj_ref_factory_->make_object (servant->_interface_repository_id (),
                                                  user_oid
                                                  ACE_ENV_ARG_PARAMETER);
    }
  else
    // If the Object Id value is not active in the POA, an
    // ObjectNotActive exception is raised.
    {
      ACE_THROW_RETURN (PortableServer::POA::ObjectNotActive (),
                        CORBA::Object::_nil ());
    }
}

CORBA::OctetSeq *
TAO_POA::id (ACE_ENV_SINGLE_ARG_DECL_NOT_USED)
  ACE_THROW_SPEC ((CORBA::SystemException))
{
  return new CORBA::OctetSeq (this->id_);
}

TAO_SERVANT_LOCATION
TAO_POA::locate_servant_i (const PortableServer::ObjectId &system_id,
                           PortableServer::Servant &servant
                           ACE_ENV_ARG_DECL)
{
  // If the POA has the RETAIN policy, the POA looks in the Active
  // Object Map to find if there is a servant associated with the
  // Object Id value from the request. If such a servant exists,
  // return TAO_SERVANT_FOUND.
  if (this->cached_policies_.servant_retention () == PortableServer::RETAIN)
    {
      // Find user id from system id.
      PortableServer::ObjectId user_id;
      if (this->active_object_map ().find_user_id_using_system_id (system_id,
                                                                   user_id) != 0)
        {
          ACE_THROW_RETURN (CORBA::OBJ_ADAPTER (),
                            TAO_SERVANT_NOT_FOUND);
        }

      TAO_Active_Object_Map::Map_Entry *entry = 0;
      int result = this->active_object_map ().find_servant_using_system_id_and_user_id (system_id,
                                                                                        user_id,
                                                                                        servant,
                                                                                        entry);
      if (result == 0)
        {
          // Success
          return TAO_SERVANT_FOUND;
        }
    }

  // If the POA has the NON_RETAIN policy or has the RETAIN policy but
  // didn't find a servant in the Active Object Map, the POA takes the
  // following actions:

  // If the USE_ACTIVE_OBJECT_MAP_ONLY policy is in effect, the POA raises
  // the OBJECT_NOT_EXIST system exception.
  if (this->cached_policies_.request_processing () == PortableServer::USE_ACTIVE_OBJECT_MAP_ONLY)
    {
      return TAO_SERVANT_NOT_FOUND;
    }

#if (TAO_HAS_MINIMUM_POA == 0)

  // If the POA has the USE_DEFAULT_SERVANT policy, a default servant
  // has been associated with the POA, return TAO_DEFAULT_SERVANT. If
  // no servant has been associated with the POA, return
  // TAO_SERVANT_NOT_FOUND.
  if (this->cached_policies_.request_processing () == PortableServer::USE_DEFAULT_SERVANT)
    {
      if (this->default_servant_.in () == 0)
        {
          return TAO_SERVANT_NOT_FOUND;
        }
      else
        {
          // Success
          return TAO_DEFAULT_SERVANT;
        }
    }

  // If the POA has the USE_SERVANT_MANAGER policy, a servant manager
  // has been associated with the POA, return
  // TAO_SERVANT_MANAGER. If no servant manager has been
  // associated with the POA, return TAO_SERVANT_NOT_FOUND.
  if (this->cached_policies_.request_processing () == PortableServer::USE_SERVANT_MANAGER)
    {
      if (CORBA::is_nil (this->servant_activator_.in ()) &&
          CORBA::is_nil (this->servant_locator_.in ()))
        {
          return TAO_SERVANT_NOT_FOUND;
        }
      else
        {
          // Success
          return TAO_SERVANT_MANAGER;
        }
    }

#endif /* TAO_HAS_MINIMUM_POA == 0 */

  // Failure
  return TAO_SERVANT_NOT_FOUND;
}

PortableServer::Servant
TAO_POA::locate_servant_i (const char *operation,
                           const PortableServer::ObjectId &system_id,
                           TAO_Object_Adapter::Servant_Upcall &servant_upcall,
                           TAO_POA_Current_Impl &poa_current_impl
                           ACE_ENV_ARG_DECL)
{
  // If we have the RETAIN policy, convert/transform from system id to
  // user id.
  if (this->cached_policies_.servant_retention () == PortableServer::RETAIN)
    {
      if (this->active_object_map ().find_user_id_using_system_id (system_id,
                                                                   poa_current_impl.object_id_) != 0)
        {
          ACE_THROW_RETURN (CORBA::OBJ_ADAPTER (),
                            0);
        }

      servant_upcall.user_id (&poa_current_impl.object_id_);
    }
  else
    {
      // We have the NON_RETAIN policy, user id is the system id.

      // Smartly copy all the data; <poa_current_impl.object_id_> does
      // not own the data.
      poa_current_impl.object_id_.replace (system_id.maximum (),
                                           system_id.length (),
                                           ACE_const_cast (CORBA::Octet *,
                                                           system_id.get_buffer ()),
                                           0);

      servant_upcall.user_id (&system_id);
    }

  // If the POA has the RETAIN policy, the POA looks in the Active
  // Object Map to find if there is a servant associated with the
  // Object Id value from the request. If such a servant exists, the
  // POA invokes the appropriate method on the servant.
  if (this->cached_policies_.servant_retention () == PortableServer::RETAIN)
    {
      PortableServer::Servant servant = 0;
      int result = this->active_object_map ().find_servant_using_system_id_and_user_id (system_id,
                                                                                        poa_current_impl.object_id (),
                                                                                        servant,
                                                                                        servant_upcall.active_object_map_entry_);

      if (result == 0)
        {
          // Increment the reference count.
          ++servant_upcall.active_object_map_entry ()->reference_count_;

          // Success
          return servant;
        }
    }

  // If the POA has the NON_RETAIN policy or has the RETAIN policy but
  // didn't find a servant in the Active Object Map, the POA takes the
  // following actions:

  // If the USE_ACTIVE_OBJECT_MAP_ONLY policy is in effect, the POA raises
  // the OBJECT_NOT_EXIST system exception.
  if (this->cached_policies_.request_processing () == PortableServer::USE_ACTIVE_OBJECT_MAP_ONLY)
    {
      ACE_THROW_RETURN (CORBA::OBJECT_NOT_EXIST (),
                        0);
    }

#if (TAO_HAS_MINIMUM_POA == 0)

  // If the POA has the USE_DEFAULT_SERVANT policy, a default servant
  // has been associated with the POA so the POA will invoke the
  // appropriate method on that servant. If no servant has been
  // associated with the POA, the POA raises the OBJ_ADAPTER system
  // exception.
  if (this->cached_policies_.request_processing () == PortableServer::USE_DEFAULT_SERVANT)
    {
      PortableServer::Servant result = this->default_servant_.in ();
      if (result == 0)
        {
          ACE_THROW_RETURN (CORBA::OBJ_ADAPTER (),
                            0);
        }
      else
        {
          // Success
          return result;
        }
    }

  // If the POA has the USE_SERVANT_MANAGER policy, a servant manager
  // has been associated with the POA so the POA will invoke incarnate
  // or preinvoke on it to find a servant that may handle the
  // request. (The choice of method depends on the NON_RETAIN or
  // RETAIN policy of the POA.) If no servant manager has been
  // associated with the POA, the POA raises the OBJ_ADAPTER system
  // exception.
  //
  // If a servant manager is located and invoked, but the servant
  // manager is not directly capable of incarnating the object, it
  // (the servant manager) may deal with the circumstance in a variety
  // of ways, all of which are the application's responsibility.  Any
  // system exception raised by the servant manager will be returned
  // to the client in the reply. In addition to standard CORBA
  // exceptions, a servant manager is capable of raising a
  // ForwardRequest exception. This exception includes an object
  // reference.
  //
  if (this->cached_policies_.request_processing () == PortableServer::USE_SERVANT_MANAGER)
    {
      if (CORBA::is_nil (this->servant_activator_.in ()) &&
          CORBA::is_nil (this->servant_locator_.in ()))
        {
          ACE_THROW_RETURN (CORBA::OBJ_ADAPTER (),
                            0);
        }

      PortableServer::Servant servant = 0;
      if (this->cached_policies_.servant_retention () == PortableServer::RETAIN)
        {
          {
            // A recursive thread lock without using a recursive
            // thread lock.  Non_Servant_Upcall has a magic
            // constructor and destructor.  We unlock the
            // Object_Adapter lock for the duration of the servant
            // activator upcalls; reacquiring once the upcalls
            // complete.  Even though we are releasing the lock, other
            // threads will not be able to make progress since
            // <Object_Adapter::non_servant_upcall_in_progress_> has
            // been set.
            TAO_Object_Adapter::Non_Servant_Upcall non_servant_upcall (*this);
            ACE_UNUSED_ARG (non_servant_upcall);

            // @@
            // Invocations of incarnate on the servant manager are serialized.
            // Invocations of etherealize on the servant manager are serialized.
            // Invocations of incarnate and etherealize on the servant manager are mutually exclusive.
            servant = this->servant_activator_->incarnate (poa_current_impl.object_id (),
                                                           this
                                                           ACE_ENV_ARG_PARAMETER);
            ACE_CHECK_RETURN (0);

            if (servant == 0)
              {
                ACE_THROW_RETURN (CORBA::OBJ_ADAPTER (),
                                  0);
              }
          }

          // If the incarnate operation returns a servant that is
          // already active for a different Object Id and if the POA
          // also has the UNIQUE_ID policy, the incarnate has violated
          // the POA policy and is considered to be in error. The POA
          // will raise an OBJ_ADAPTER system exception for the
          // request.
          if (this->cached_policies_.id_uniqueness () == PortableServer::UNIQUE_ID &&
              this->is_servant_in_map (servant))
            {
              ACE_THROW_RETURN (CORBA::OBJ_ADAPTER (),
                                0);
            }

          // The POA enters the returned Servant value into the Active
          // Object Map so that subsequent requests with the same
          // ObjectId value will be delivered directly to that servant
          // without invoking the servant manager.
          int result = this->active_object_map ().
            rebind_using_user_id_and_system_id (servant,
                                                poa_current_impl.object_id (),
                                                system_id,
                                                servant_upcall.active_object_map_entry_);
          if (result != 0)
            {
              ACE_THROW_RETURN (CORBA::OBJ_ADAPTER (),
                                0);
            }
          else
            {
              // Increment the reference count.
              ++servant_upcall.active_object_map_entry ()->reference_count_;

              // Success
              return servant;
            }
        }
      else
        //
        // Don't retain servant
        //
        {
          // No serialization of invocations of preinvoke or
          // postinvoke may be assumed; there may be multiple
          // concurrent invocations of preinvoke for the same
          // ObjectId.
          //
          // The same thread will be used to preinvoke the object,
          // process the request, and postinvoke the object.

          // @@ Note that it is possible for some other thread to
          // reset the servant locator once the lock is released.
          // However, this possiblility also exists for postinvoke()
          // which is also called outside the lock.

          // Release the object adapter lock.
          this->object_adapter_->lock ().release ();

          // We have release the object adapater lock.  Record this
          // for later use.
          servant_upcall.state (TAO_Object_Adapter::Servant_Upcall::OBJECT_ADAPTER_LOCK_RELEASED);

          PortableServer::ServantLocator::Cookie cookie;
          PortableServer::Servant servant =
            this->servant_locator_->preinvoke (poa_current_impl.object_id (),
                                               this,
                                               operation,
                                               cookie
                                               ACE_ENV_ARG_PARAMETER);
          ACE_CHECK_RETURN (0);

          if (servant == 0)
            {
              ACE_THROW_RETURN (CORBA::OBJ_ADAPTER (),
                                0);
            }

          // Remember to invoke <postinvoke>
          servant_upcall.using_servant_locator ();

          // Remember the cookie
          servant_upcall.locator_cookie (cookie);

          // Remember operation name.
          servant_upcall.operation (operation);

          // Success
          return servant;
        }
    }
#else
  ACE_UNUSED_ARG (operation);
#endif /* TAO_HAS_MINIMUM_POA == 0 */

  // Failure
  ACE_THROW_RETURN (CORBA::OBJ_ADAPTER (),
                    0);
}

/* static */
int
TAO_POA::parse_key (const TAO::ObjectKey &key,
                    TAO_Object_Adapter::poa_name &poa_system_name,
                    PortableServer::ObjectId &system_id,
                    CORBA::Boolean &is_root,
                    CORBA::Boolean &is_persistent,
                    CORBA::Boolean &is_system_id,
                    TAO_Temporary_Creation_Time &poa_creation_time)
{
  // Start at zero.
  CORBA::ULong starting_at = 0;

  // Get the object key octets.
  const CORBA::Octet *key_data = key.get_buffer ();

  // Skip the object key prefix since we have already checked for
  // this.
  starting_at += TAO_OBJECTKEY_PREFIX_SIZE;

  // Check the root indicator.
  char root_key_type = key_data[starting_at];
  if (root_key_type == TAO_POA::root_key_char ())
    {
      is_root = 1;
    }
  else if (root_key_type == TAO_POA::non_root_key_char ())
    {
      is_root = 0;
    }
  else
    {
      // Incorrect key
      return -1;
    }

  // Skip past the system id indicator
  starting_at += TAO_POA::root_key_type_length ();

  // Check the system id indicator.
  char system_id_key_type = key_data[starting_at];
  if (system_id_key_type == TAO_POA::system_id_key_char ())
    {
      is_system_id = 1;
    }
  else if (system_id_key_type == TAO_POA::user_id_key_char ())
    {
      is_system_id = 0;
    }
  else
    {
      // Incorrect key
      return -1;
    }

  // Skip past the system id indicator
  starting_at += TAO_POA::system_id_key_type_length ();

  // Check the persistence indicator
  char persistent_key_type = key_data[starting_at];
  if (persistent_key_type == TAO_POA::persistent_key_char ())
    {
      is_persistent = 1;
    }
  else if (persistent_key_type == TAO_POA::transient_key_char ())
    {
      is_persistent = 0;
    }
  else
    {
      // Incorrect key
      return -1;
    }

  // Skip past the persistent indicator
  starting_at += TAO_POA::persistent_key_type_length ();

#if (POA_NO_TIMESTAMP == 0)
  // Grab the timestamp for transient POAs.
  if (!is_persistent)
    {
      // Take the creation time for the timestamp
      poa_creation_time.creation_time (key_data + starting_at);

      // Skip past the timestamp
      starting_at += TAO_Creation_Time::creation_time_length ();
    }
#else
  ACE_UNUSED_ARG (poa_creation_time);
#endif /* POA_NO_TIMESTAMP */

  // Calculate the size of the POA name.
  CORBA::ULong poa_name_size = 0;
  if (!is_persistent)
    {
      // Transient POAs have fixed size.
      poa_name_size = TAO_Object_Adapter::transient_poa_name_size ();
    }
  else if (is_system_id)
    {
      // System ids have fixed size.
      poa_name_size = ACE_static_cast (CORBA::ULong,
                                       key.length () - starting_at -
                                       TAO_Active_Object_Map::system_id_size ());
    }
  else
    {
      // Get the size from the object key.
      ACE_OS::memcpy (&poa_name_size,
                      key_data + starting_at,
                      sizeof (poa_name_size));
      poa_name_size = ACE_NTOHL (poa_name_size);

      starting_at += sizeof (poa_name_size);
    }

  // For non-root POAs, grab their name.
  if (!is_root)
    {
      poa_system_name.replace (poa_name_size,
                               poa_name_size,
                               (CORBA::Octet *) key_data + starting_at,
                               0);

      starting_at += poa_name_size;
    }

  // The rest is the system id.
  CORBA::ULong system_id_size = key.length () - starting_at;

  // Reset <system_id>.
  system_id.replace (system_id_size,
                     system_id_size,
                     (CORBA::Octet *) key_data + starting_at,
                     0);

  // Success
  return 0;
}

TAO::ObjectKey *
TAO_POA::create_object_key (const PortableServer::ObjectId &id)
{
  // Calculate the space required for the key.
  CORBA::ULong buffer_size =
    this->id_.length () +
    id.length ();

  // Create the buffer for the key.
  CORBA::Octet *buffer = TAO::ObjectKey::allocbuf (buffer_size);

  // First copy the POA id into the key.
  ACE_OS::memcpy (&buffer[0],
                  this->id_.get_buffer (),
                  this->id_.length ());

  // Then copy the object id into the key.
  ACE_OS::memcpy (&buffer[this->id_.length ()],
                  id.get_buffer (),
                  id.length ());

  // Create the key, giving the ownership of the buffer to the
  // sequence.
  TAO::ObjectKey *key = 0;
  ACE_NEW_RETURN (key,
                  TAO::ObjectKey (buffer_size,
                                 buffer_size,
                                 buffer,
                                 1),
                  0);

  return key;
}

void
TAO_POA::set_id (void)
{
  // Calculate the prefix size.
  CORBA::ULong prefix_size = 0;
  prefix_size += TAO_OBJECTKEY_PREFIX_SIZE;

  // If we are dealing with a persistent POA and user ids are being
  // used, then we need to add the POA name length field to the object
  // key. Otherwise, the POA name length can be calculated by looking
  // at the remainder after extracting other parts of the key.
  int add_poa_name_length =
    this->persistent () &&
    !this->system_id ();

  // Size required by the POA name.
  CORBA::ULong poa_name = 0;

  // Calculate the space required for the POA name.
  CORBA::ULong poa_name_length = this->system_name_->length ();
  if (!this->root ())
    {
      poa_name += poa_name_length;
    }

  // Check if we need to added the length of the POA name.
  if (add_poa_name_length)
    {
      poa_name += sizeof (poa_name_length);
    }

  // Calculate the space required for the timestamp and the persistent
  // byte.
  CORBA::ULong creation_time = this->persistent_key_type_length ();
#if (POA_NO_TIMESTAMP == 0)
  // Calculate the space required for the timestamp.
  CORBA::ULong creation_time_length = TAO_Creation_Time::creation_time_length ();
  if (!this->persistent ())
    {
      creation_time += creation_time_length;
    }
#endif /* POA_NO_TIMESTAMP */

  // Calculate the space required for the POA id.
  CORBA::ULong buffer_size =
    prefix_size +
    this->root_key_type_length () +
    this->system_id_key_type_length () +
    creation_time +
    poa_name;

  // Create the buffer for the POA id.
  this->id_.length (buffer_size);
  CORBA::Octet *buffer = &this->id_[0];

  // Keeps track of where the next infomation goes; start at 0 byte.
  CORBA::ULong starting_at = 0;

  // Add the object key prefix.
  ACE_OS::memcpy (&buffer[starting_at],
                  &objectkey_prefix[0],
                  TAO_OBJECTKEY_PREFIX_SIZE);

  starting_at += TAO_OBJECTKEY_PREFIX_SIZE;

  // Copy the root byte.
  buffer[starting_at] = (CORBA::Octet) this->root_key_type ();
  starting_at += this->root_key_type_length ();

  // Copy the system id byte.
  buffer[starting_at] = (CORBA::Octet) this->system_id_key_type ();
  starting_at += this->system_id_key_type_length ();

  // Copy the persistence byte.
  buffer[starting_at] = (CORBA::Octet) this->persistent_key_type ();
  starting_at += this->persistent_key_type_length ();

#if (POA_NO_TIMESTAMP == 0)
  // Then copy the timestamp for transient POAs.
  if (!this->persistent ())
    {
      ACE_OS::memcpy (&buffer[starting_at],
                      this->creation_time_.creation_time (),
                      creation_time_length);
      starting_at += creation_time_length;
    }
#endif /* POA_NO_TIMESTAMP */

  // Check if we need to added the length of the POA name.
  if (add_poa_name_length)
    {
      poa_name_length = ACE_HTONL (poa_name_length);
      ACE_OS::memcpy (&buffer[starting_at],
                      &poa_name_length,
                      sizeof (poa_name_length));
      starting_at += sizeof (poa_name_length);
    }

  // Put the POA name into the key (for non-root POAs).
  if (!this->root ())
    {
      ACE_OS::memcpy (&buffer[starting_at],
                      this->system_name_->get_buffer (),
                      this->system_name_->length ());
      starting_at += this->system_name_->length ();
    }
}

int
TAO_POA::is_poa_generated_id (const PortableServer::ObjectId &id)
{

#if defined (POA_NAME_IN_POA_GENERATED_ID)

  // Grab the buffer
  const char *id_buffer = (const char *) id.get_buffer ();

  // Check to see if the POA name is the first part of the id
  return
    this->name_.length () < id.length () &&
    ACE_OS::strncmp (id_buffer,
                     this->name_.c_str (),
                     this->name_.length ()) == 0;

#else /* POA_NAME_IN_POA_GENERATED_ID */

  ACE_UNUSED_ARG (id);
  return 1;

#endif /* POA_NAME_IN_POA_GENERATED_ID */
}

void
TAO_POA::set_folded_name (void)
{
  size_t length = 0;
  size_t parent_length = 0;

  if (this->parent_ != 0)
    {
      parent_length = this->parent_->folded_name ().length ();
      length += parent_length;
    }

  length += this->name_.length ();
  length += TAO_POA::name_separator_length ();

  this->folded_name_.length (ACE_static_cast (CORBA::ULong, length));
  CORBA::Octet *folded_name_buffer = this->folded_name_.get_buffer ();

  if (this->parent_ != 0)
    {
      ACE_OS::memcpy (folded_name_buffer,
                      this->parent_->folded_name ().get_buffer (),
                      parent_length);
    }

  ACE_OS::memcpy (&folded_name_buffer[parent_length],
                  this->name_.c_str (),
                  this->name_.length ());

  folded_name_buffer[length - TAO_POA::name_separator_length ()] = TAO_POA::name_separator ();
}

PortableServer::ObjectId *
TAO_POA::string_to_ObjectId (const char *string)
{
  // Size of string
  //
  // We DO NOT include the zero terminator, as this is simply an
  // artifact of the way strings are stored in C.
  //
  CORBA::ULong buffer_size = ACE_static_cast (CORBA::ULong,
                                              ACE_OS::strlen (string));

  // Create the buffer for the Id
  CORBA::Octet *buffer = PortableServer::ObjectId::allocbuf (buffer_size);

  // Copy the contents
  ACE_OS::memcpy (buffer, string, buffer_size);

  // Create and return a new ID
  PortableServer::ObjectId *id = 0;
  ACE_NEW_RETURN (id,
                  PortableServer::ObjectId (buffer_size,
                                            buffer_size,
                                            buffer,
                                            1),
                  0);

  return id;
}

PortableServer::ObjectId *
TAO_POA::string_to_ObjectId (const char *string,
                             int size)
{
  // Create the buffer for the Id
  CORBA::Octet *buffer = PortableServer::ObjectId::allocbuf (size);

  // Copy the contents
  ACE_OS::memcpy (buffer, string, size);

  // Create and return a new ID
  PortableServer::ObjectId *id = 0;
  ACE_NEW_RETURN (id,
                  PortableServer::ObjectId (size,
                                            size,
                                            buffer,
                                            1),
                  0);

  return id;
}

PortableServer::ObjectId *
TAO_POA::wstring_to_ObjectId (const CORBA::WChar *string)
{
  // Size of Id
  //
  // We DO NOT include the zero terminator, as this is simply an
  // artifact of the way strings are stored in C.
  //
  CORBA::ULong string_length = ACE_OS::wslen (string);

  CORBA::ULong buffer_size = string_length * sizeof (CORBA::WChar);

  // Create the buffer for the Id
  CORBA::Octet *buffer = PortableServer::ObjectId::allocbuf (buffer_size);

  // Copy contents
  ACE_OS::memcpy (buffer, string, buffer_size);

  // Create a new ID
  PortableServer::ObjectId *id = 0;
  ACE_NEW_RETURN (id,
                  PortableServer::ObjectId (buffer_size,
                                            buffer_size,
                                            buffer,
                                            1),
                  0);

  return id;
}

char *
TAO_POA::ObjectId_to_string (const PortableServer::ObjectId &id)
{
  // Create space
  char * string = CORBA::string_alloc (id.length ());

  // Copy the data
  ACE_OS::memcpy (string, id.get_buffer (), id.length ());

  // Null terminate the string
  string[id.length ()] = '\0';

  // Return string
  return string;
}

CORBA::WChar *
TAO_POA::ObjectId_to_wstring (const PortableServer::ObjectId &id)
{
  // Compute resulting wide string's length.
  CORBA::ULong string_length =
    id.length () / sizeof (CORBA::WChar) + 1;

  // Allocate an extra slot if the id's length is not "aligned" on a
  // CORBA::WChar.
  if (id.length () % sizeof (CORBA::WChar))
    string_length++;

  // Create space.
  CORBA::WChar* string = CORBA::wstring_alloc (string_length);

  // Copy the data
  ACE_OS::memcpy (string,
                  id.get_buffer (),
                  id.length ());

  // Null terminate the string
  string[string_length] = '\0';

  // Return string.
  return string;
}

int
TAO_POA::parse_ir_object_key (const TAO::ObjectKey &object_key,
                              PortableServer::ObjectId &user_id)
{
  TAO_Object_Adapter::poa_name poa_system_name;
  CORBA::Boolean is_root = 0;
  CORBA::Boolean is_persistent = 0;
  CORBA::Boolean is_system_id = 0;
  TAO_Temporary_Creation_Time poa_creation_time;

  return TAO_POA::parse_key (object_key,
                             poa_system_name,
                             user_id,
                             is_root,
                             is_persistent,
                             is_system_id,
                             poa_creation_time);
}

TAO_Object_Adapter &
TAO_POA::object_adapter (void)
{
  return *this->object_adapter_;
}

#if (TAO_HAS_MINIMUM_POA == 0)

TAO_Adapter_Activator::TAO_Adapter_Activator (PortableServer::POAManager_ptr poa_manager)
  : poa_manager_ (PortableServer::POAManager::_duplicate (poa_manager))
{
}

CORBA::Boolean
TAO_Adapter_Activator::unknown_adapter (PortableServer::POA_ptr parent,
                                        const char *name
                                        ACE_ENV_ARG_DECL)
  ACE_THROW_SPEC ((CORBA::SystemException))
{
  // Default policies
  CORBA::PolicyList default_policies;

  // This assumes that the lock on the parent is recursive
  PortableServer::POA_var child = parent->create_POA (name,
                                                      this->poa_manager_.in (),
                                                      default_policies
                                                      ACE_ENV_ARG_PARAMETER);
  ACE_CHECK_RETURN (0);

  ACE_TRY
    {
      child->the_activator (this ACE_ENV_ARG_PARAMETER);
      ACE_TRY_CHECK;
    }
  ACE_CATCHANY
    {
      child->destroy (1,
                      1
                      ACE_ENV_ARG_PARAMETER);

      return 0;
    }
  ACE_ENDTRY;
  ACE_CHECK_RETURN (0);

  // Finally everything is fine
  return 1;
}

#endif /* TAO_HAS_MINIMUM_POA == 0 */

CORBA::Object_ptr
TAO_POA::invoke_key_to_object (ACE_ENV_SINGLE_ARG_DECL)
{
  PortableServer::ObjectId_var &system_id =
    *this->key_to_object_params_.system_id_;

  // Create object key.
  TAO::ObjectKey_var key =
    this->create_object_key (system_id.in ());

  return this->key_to_object (key.in (),
                              this->key_to_object_params_.type_id_,
                              this->key_to_object_params_.servant_,
                              this->key_to_object_params_.collocated_,
                              this->key_to_object_params_.priority_
                              ACE_ENV_ARG_PARAMETER);
}

CORBA::Object_ptr
TAO_POA::key_to_object (const TAO::ObjectKey &key,
                        const char *type_id,
                        TAO_ServantBase *servant,
                        CORBA::Boolean collocated,
                        CORBA::Short priority
                        ACE_ENV_ARG_DECL)
{
  // Check if the ORB is still running, otherwise throw an exception.
  // @@ What if the ORB was destroyed?  In that case we shouldn't even
  //    get here!
  this->orb_core_.check_shutdown (ACE_ENV_SINGLE_ARG_PARAMETER);
  ACE_CHECK_RETURN (0);

  //
  // ImplRepo related.
  //
#if (TAO_HAS_MINIMUM_CORBA == 0)

  CORBA::Object_ptr obj = CORBA::Object::_nil ();

  if (this->use_imr_
      && this->cached_policies_.lifespan () == PortableServer::PERSISTENT)
    {
      // Check to see if we alter the IOR.
      CORBA::Object_var imr =
        this->orb_core ().implrepo_service ();

      if (CORBA::is_nil (imr.in ())
          || !imr->_stubobj ()
          || !imr->_stubobj ()->profile_in_use ())
        {
          if (TAO_debug_level > 1)
            ACE_DEBUG ((LM_DEBUG,
                        "Missing ImR IOR, will not use the ImR\n"));
          goto orbkey;
        }

      CORBA::String_var imr_str =
        imr->_stubobj ()->profile_in_use ()->to_string (ACE_ENV_SINGLE_ARG_PARAMETER);
      ACE_CHECK_RETURN (obj);

      if (TAO_debug_level > 0)
        ACE_DEBUG ((LM_DEBUG,
                    "IMR IOR = \n%s\n",
                    imr_str.in ()));

      // Search for "corbaloc:" alone, without the protocol.  This code
      // should be protocol neutral.
      const char corbaloc[] = "corbaloc:";
      char *pos = ACE_OS::strstr (imr_str.inout (), corbaloc);
      pos = ACE_OS::strchr (pos + sizeof (corbaloc), ':');

      pos = ACE_OS::strchr (pos + 1,
                            imr->_stubobj ()->profile_in_use ()->object_key_delimiter ());

      if (pos)
        pos[1] = 0;  // Crop the string.
      else
        {
          if (TAO_debug_level > 0)
            ACE_ERROR ((LM_ERROR,
                        "Could not parse ImR IOR, skipping ImRification\n"));
          goto orbkey;
        }

      ACE_CString ior (imr_str.in ());

      // Add the key.

      CORBA::String_var key_str;
      TAO::ObjectKey::encode_sequence_to_string (key_str.inout (), key);

      ior += key_str.in ();

      if (TAO_debug_level > 0)
        ACE_DEBUG ((LM_DEBUG,
                    "ImR-ified IOR = \n%s\n",
                    ior.c_str ()));

      obj =
        this->orb_core_.orb ()->string_to_object (ior.c_str ()
                                                  ACE_ENV_ARG_PARAMETER);
      ACE_CHECK_RETURN (obj);

      return obj;
    }

orbkey:

#endif /* TAO_HAS_MINIMUM_CORBA */

  TAO_Stub *data =
    this->key_to_stub_i (key, type_id, priority ACE_ENV_ARG_PARAMETER);
  ACE_CHECK_RETURN (CORBA::Object::_nil ());


  TAO_Stub_Auto_Ptr safe_data (data);

  CORBA::Object_ptr tmp;

  if (this->orb_core_.optimize_collocation_objects ())
    {
      ACE_NEW_THROW_EX (tmp, CORBA::Object (data,
                                            collocated,
                                            servant),
                        CORBA::INTERNAL ());

      ACE_CHECK_RETURN (CORBA::Object::_nil ());
    }
  else
    {
      ACE_NEW_THROW_EX (tmp,
                        CORBA::Object (data,
                                       collocated),
                        CORBA::INTERNAL ());
      ACE_CHECK_RETURN (CORBA::Object::_nil ());
    }

  data->servant_orb (this->orb_core_.orb ());

  // Transfer ownership to the Object.
  (void) safe_data.release ();

  return tmp;
}

TAO_Stub *
TAO_POA::key_to_stub (const TAO::ObjectKey &key,
                      const char *type_id,
                      CORBA::Short priority
                      ACE_ENV_ARG_DECL)
{
  // Check if the ORB is still running, otherwise throw an exception.
  // @@ What if the ORB was destroyed?  In that case we shouldn't even
  //    get here!
  this->orb_core_.check_shutdown (ACE_ENV_SINGLE_ARG_PARAMETER);
  ACE_CHECK_RETURN (0);

  return this->key_to_stub_i (key, type_id, priority ACE_ENV_ARG_PARAMETER);
}

TAO_Stub *
TAO_POA::key_to_stub_i (const TAO::ObjectKey &key,
                        const char *type_id,
                        CORBA::Short priority
                        ACE_ENV_ARG_DECL)
{
  CORBA::PolicyList_var client_exposed_policies =
    this->client_exposed_policies (priority
                                   ACE_ENV_ARG_PARAMETER);
  ACE_CHECK_RETURN (0);

  TAO_Default_Acceptor_Filter filter;
  TAO_Stub *data =
    this->create_stub_object (
      key,
      type_id,
      client_exposed_policies._retn (),
      &filter,
      this->orb_core_.lane_resources ().acceptor_registry ()
      ACE_ENV_ARG_PARAMETER);
  ACE_CHECK_RETURN (0);

  return data;
}

void
TAO_POA::establish_components (ACE_ENV_SINGLE_ARG_DECL)
{
  // Iterate over the registered IOR interceptors so that they may be
  // given the opportunity to add tagged components to the profiles
  // for this servant.
  TAO_IORInterceptor_List::TYPE &interceptors =
    this->orb_core_.ior_interceptors ();

  const size_t interceptor_count = interceptors.size ();

  if (interceptor_count == 0)
    return;

  TAO_IORInfo * tao_info;
  ACE_NEW_THROW_EX (tao_info,
                    TAO_IORInfo (this),
                    CORBA::NO_MEMORY (
                       CORBA::SystemException::_tao_minor_code (
                          TAO_DEFAULT_MINOR_CODE,
                          ENOMEM),
                       CORBA::COMPLETED_NO));
  ACE_CHECK;

  PortableInterceptor::IORInfo_var info = tao_info;

  for (size_t i = 0; i < interceptor_count; ++i)
    {
      ACE_TRY
        {
          interceptors[i]->establish_components (info.in ()
                                                 ACE_ENV_ARG_PARAMETER);
          ACE_TRY_CHECK;
        }
      ACE_CATCHANY
        {
          // According to the Portable Interceptors specification,
          // IORInterceptor::establish_components() must not throw an
          // exception.  If it does, then the ORB is supposed to
          // ignore it and continue processing the remaining
          // IORInterceptors.
          if (TAO_debug_level > 1)
            {
              CORBA::String_var name = interceptors[i]->name (
                ACE_ENV_SINGLE_ARG_PARAMETER);
              ACE_TRY_CHECK;
              // @@ What do we do if we get an exception here?

              if (name.in () != 0)
                {
                  ACE_DEBUG ((LM_WARNING,
                              "(%P|%t) Exception thrown while processing "
                              "IORInterceptor \"%s\">\n",
                              name.in ()));
                }

              ACE_PRINT_TAO_EXCEPTION (ACE_ANY_EXCEPTION,
                                       "Ignoring exception in "
                                       "IORInterceptor::establish_components");
            }
        }
      ACE_ENDTRY;
      ACE_CHECK;
    }

  tao_info->components_established ();

  this->components_established (info.in ()
                                ACE_ENV_ARG_PARAMETER);
  ACE_CHECK;

  // The IORInfo instance is no longer valid.  Invalidate it to
  // prevent the user from peforming "illegal" operations.
  tao_info->invalidate ();
}

void
TAO_POA::components_established (PortableInterceptor::IORInfo_ptr info
                                 ACE_ENV_ARG_DECL)
{
  // Iterate over the registered IOR interceptors so that they may be
  // given the opportunity to add tagged components to the profiles
  // for this servant.
  TAO_IORInterceptor_List::TYPE &interceptors =
    this->orb_core_.ior_interceptors ();

  const size_t interceptor_count = interceptors.size ();

  // All the establish_components() interception points have been
  // invoked. Now call the components_established() interception point
  // on all the IORInterceptors.
  for (size_t j = 0; j < interceptor_count; ++j)
    {
      ACE_TRY
        {
          interceptors[j]->components_established (
            info
            ACE_ENV_ARG_PARAMETER);
          ACE_TRY_CHECK;
        }
      ACE_CATCHANY
        {
          ACE_THROW (CORBA::OBJ_ADAPTER (CORBA::OMGVMCID | 6,
                                         CORBA::COMPLETED_NO));
        }
      ACE_ENDTRY;
      ACE_CHECK;
    }
}

void
TAO_POA::save_ior_component (const IOP::TaggedComponent &component
                             ACE_ENV_ARG_DECL_NOT_USED)
{
  const CORBA::ULong old_len = this->tagged_component_.length ();

  this->tagged_component_.length (old_len + 1);
  this->tagged_component_[old_len] = component;
}

void
TAO_POA::
save_ior_component_and_profile_id (const IOP::TaggedComponent &component,
                                   IOP::ProfileId profile_id
                                   ACE_ENV_ARG_DECL_NOT_USED)
{
  // The length of this->tagged_component_id_ is the same as the
  // length of the profile_id_array_ since we are trying to make a
  // one-to-one link between these two arrays. So, whenever
  // this->tagged_component_id_ is increased, we need to increase the
  // size of this->profile_id_array_ also.

  const CORBA::ULong old_len = this->tagged_component_id_.length ();

  const CORBA::ULong new_len = old_len + 1;

  this->tagged_component_id_.length (new_len);
  this->tagged_component_id_[old_len] = component;

  this->profile_id_array_.size (new_len);
  this->profile_id_array_[old_len] = profile_id;
}

TAO_Stub *
TAO_POA::create_stub_object (const TAO::ObjectKey &object_key,
                             const char *type_id,
                             CORBA::PolicyList *policy_list,
                             TAO_Acceptor_Filter *filter,
                             TAO_Acceptor_Registry &acceptor_registry
                             ACE_ENV_ARG_DECL)
{
  int error = 0;

  // Count the number of endpoints.
  size_t profile_count =
    acceptor_registry.endpoint_count ();

  // Create a profile container and have acceptor registries populate
  // it with profiles as appropriate.
  TAO_MProfile mprofile (0);

  // Allocate space for storing the profiles.  There can never be more
  // profiles than there are endpoints.  In some cases, there can be
  // less profiles than endpoints.
  int result =
    mprofile.set (ACE_static_cast (CORBA::ULong, profile_count));
  if (result == -1)
    error = 1;

  if (!error)
    {
      result =
        filter->fill_profile (object_key,
                              mprofile,
                              acceptor_registry.begin (),
                              acceptor_registry.end ());
      if (result == -1)
        error = 1;
    }

  if (!error)
    result = filter->encode_endpoints (mprofile);
  if (result == -1)
    error = 1;

  if (error)
    ACE_THROW_RETURN (CORBA::INTERNAL (
                        CORBA::SystemException::_tao_minor_code (
                          TAO_MPROFILE_CREATION_ERROR,
                          0),
                        CORBA::COMPLETED_NO),
                      0);

  // Make sure we have at least one profile.  <mp> may end up being
  // empty if none of the acceptor endpoints have the right priority
  // for this object, for example.
  if (mprofile.profile_count () == 0)
    ACE_THROW_RETURN (CORBA::BAD_PARAM (
                        CORBA::SystemException::_tao_minor_code (
                          TAO_MPROFILE_CREATION_ERROR,
                          0),
                        CORBA::COMPLETED_NO),
                      0);

  TAO_Stub *stub =
    this->orb_core_.create_stub_object (mprofile,
                                        type_id,
                                        policy_list
                                        ACE_ENV_ARG_PARAMETER);
  ACE_CHECK_RETURN (0);

  // Add the saved tagged components methods to the profiles.
  CORBA::ULong len = this->tagged_component_.length ();
  for (CORBA::ULong i = 0; i != len; ++i)
    {
      this->add_ior_component (mprofile,
                               this->tagged_component_[i]
                               ACE_ENV_ARG_PARAMETER);
      ACE_CHECK_RETURN (0);
      }

  len = this->tagged_component_id_.length ();

  for (CORBA::ULong k = 0; k != len; ++k)
    {
      this->add_ior_component_to_profile (mprofile,
                                          this->tagged_component_id_[k],
                                          this->profile_id_array_[k]
                                          ACE_ENV_ARG_PARAMETER);
      ACE_CHECK_RETURN (0);
    }

  return stub;
}

CORBA::PolicyList *
TAO_POA::client_exposed_policies (CORBA::Short /* object_priority */
                                  ACE_ENV_ARG_DECL)
{
  CORBA::PolicyList *client_exposed_policies = 0;
  ACE_NEW_THROW_EX (client_exposed_policies,
                    CORBA::PolicyList (),
                    CORBA::NO_MEMORY (TAO_DEFAULT_MINOR_CODE,
                                      CORBA::COMPLETED_NO));
  ACE_CHECK_RETURN (0);

  CORBA::PolicyList_var policies = client_exposed_policies;

  // Add in all of the client exposed policies.
  this->policies_.add_client_exposed_fixed_policies (client_exposed_policies
                                                     ACE_ENV_ARG_PARAMETER);
  ACE_CHECK_RETURN (0);

  return policies._retn ();
}

//
// ImplRepo related.
//
#if (TAO_HAS_MINIMUM_CORBA == 0)

void
TAO_POA::imr_notify_startup (ACE_ENV_SINGLE_ARG_DECL)
{
  if (TAO_debug_level > 0)
    ACE_DEBUG ((LM_DEBUG, "Notifying ImR of startup\n"));

  CORBA::Object_var imr = this->orb_core ().implrepo_service ();

  if (CORBA::is_nil (imr.in ()))
      return;

  TAO_POA *root_poa = this->object_adapter ().root_poa ();
  ACE_NEW_THROW_EX (this->server_object_,
                    ServerObject_i (this->orb_core_.orb (),
                                    root_poa),
                    CORBA::NO_MEMORY ());
  ACE_CHECK;

  PortableServer::ServantBase_var safe_servant (this->server_object_);
  ACE_UNUSED_ARG (safe_servant);

  // Activate the servant in the root poa.
  PortableServer::ObjectId_var id =
    root_poa->activate_object_i (this->server_object_,
                                 this->cached_policies_.server_priority ()
                                 ACE_ENV_ARG_PARAMETER);
  ACE_CHECK;

  CORBA::Object_var obj = root_poa->id_to_reference_i (id.in  ()
                                                       ACE_ENV_ARG_PARAMETER);
  ACE_CHECK;

  ImplementationRepository::ServerObject_var svr
    = ImplementationRepository::ServerObject::_narrow (obj.in ()
                                                       ACE_ENV_ARG_PARAMETER);
  ACE_CHECK;

  if (!svr->_stubobj () || !svr->_stubobj ()->profile_in_use ())
    {
      ACE_ERROR ((LM_ERROR, "Invalid ServerObject, bailing out.\n"));
      return;
    }

  CORBA::String_var svr_str =
    svr->_stubobj ()->profile_in_use ()->to_string (ACE_ENV_SINGLE_ARG_PARAMETER);
  ACE_CHECK;

  // Search for "corbaloc:" alone, without the protocol.  This code
  // should be protocol neutral.
  const char corbaloc[] = "corbaloc:";
  char *pos = ACE_OS::strstr (svr_str.inout (), corbaloc);
  pos = ACE_OS::strchr (pos + sizeof (corbaloc), ':');

  pos = ACE_OS::strchr (pos + 1,
                        svr->_stubobj ()->profile_in_use ()->object_key_delimiter ());

  if (pos)
    *(pos + 1) = 0;  // Crop the string
  else
    {
      ACE_ERROR ((LM_ERROR,
                  "Could not parse ServerObject IOR, bailing out.\n"));
      return;
    }

  ACE_CString ior (svr_str.in ());

  CORBA::String_var curr_addr (svr_str);

  ImplementationRepository::Locator_var imr_locator =
    ImplementationRepository::Locator::_narrow (imr.in ()
                                                ACE_ENV_ARG_PARAMETER);
  ACE_CHECK;

  if (imr_locator.in () == 0)
    {
      ACE_DEBUG ((LM_DEBUG,
                  "Couldn't narrow down the ImR interface\n"));
      return;
    }

  if (TAO_debug_level > 0)
    ACE_DEBUG ((LM_DEBUG,
                "Informing ImR that we are running at: %s\n",
                curr_addr.in ()));

  ACE_TRY
    {
      imr_locator->server_is_running (this->name ().c_str (),
                                      curr_addr.in (),
                                      svr.in ()
                                      ACE_ENV_ARG_PARAMETER);
      ACE_TRY_CHECK;
    }
  ACE_CATCH (CORBA::SystemException, sysex)
    {
      // Avoid warnings on platforms with native C++ exceptions
      ACE_UNUSED_ARG (sysex);
      ACE_RE_THROW;
    }
  ACE_CATCHANY
    {
      ACE_TRY_THROW (CORBA::TRANSIENT (
          CORBA::SystemException::_tao_minor_code (TAO_IMPLREPO_MINOR_CODE, 0),
          CORBA::COMPLETED_NO));
    }
  ACE_ENDTRY;
  ACE_CHECK;

  if (TAO_debug_level > 0)
    ACE_DEBUG ((LM_DEBUG, "Successfully notified ImR of Startup\n"));
}

void
TAO_POA::imr_notify_shutdown (void)
{
  if (TAO_debug_level > 0)
    ACE_DEBUG ((LM_DEBUG, "Notifying ImR of Shutdown\n"));

  // Notify the Implementation Repository about shutting down.
  CORBA::Object_var imr = this->orb_core ().implrepo_service ();

  // Check to see if there was an imr returned.  If none, return ourselves.
  if (CORBA::is_nil (imr.in ()))
    return;

  ACE_TRY_NEW_ENV
    {
      // Get the IMR's administrative object and call shutting_down on it
      ImplementationRepository::Locator_var imr_locator =
        ImplementationRepository::Locator::_narrow (imr.in ()
                                                    ACE_ENV_ARG_PARAMETER);
      ACE_TRY_CHECK;

      imr_locator->server_is_shutting_down (this->the_name ()
                                            ACE_ENV_ARG_PARAMETER);
      ACE_TRY_CHECK;
    }
  ACE_CATCHANY
    {
      ACE_PRINT_EXCEPTION (ACE_ANY_EXCEPTION, "Server_i::init");
      // Ignore exceptions
    }
  ACE_ENDTRY;
}

#endif /* TAO_HAS_MINIMUM_CORBA */

TAO_POA_Guard::TAO_POA_Guard (TAO_POA &poa
                              ACE_ENV_ARG_DECL,
                              int check_for_destruction)
  : guard_ (poa.lock ())
{
  if (!this->guard_.locked ())
    ACE_THROW (
      CORBA::INTERNAL (
        CORBA::SystemException::_tao_minor_code (
          TAO_GUARD_FAILURE,
          0),
        CORBA::COMPLETED_NO));

  // Check if a non-servant upcall is in progress.  If a non-servant
  // upcall is in progress, wait for it to complete.  Unless of
  // course, the thread making the non-servant upcall is this thread.
  poa.object_adapter ().wait_for_non_servant_upcalls_to_complete (ACE_ENV_SINGLE_ARG_PARAMETER);
  ACE_CHECK;

  if (check_for_destruction &&
      poa.cleanup_in_progress ())
    ACE_THROW (
      CORBA::BAD_INV_ORDER (
        CORBA::SystemException::_tao_minor_code (
          TAO_POA_BEING_DESTROYED,
          0),
        CORBA::COMPLETED_NO));
}

CORBA::Policy *
TAO_POA::server_protocol (void)
{
  return 0;
}

#if (TAO_HAS_MINIMUM_POA == 0)

PortableServer::ObjectId *
TAO_POA::create_id_for_reference (CORBA::Object_ptr the_ref
                                  ACE_ENV_ARG_DECL)
    ACE_THROW_SPEC ((
      CORBA::SystemException,
      PortableServer::NotAGroupObject
    ))
{
  TAO_POA_PortableGroup_Hooks *hooks = this->orb_core_.portable_group_poa_hooks ();
  if (hooks == 0)
    {
      ACE_THROW_RETURN (CORBA::NO_IMPLEMENT (), 0);
    }

  PortableServer::ObjectId *obj_id =
    hooks->create_id_for_reference (*this, the_ref ACE_ENV_ARG_PARAMETER);
  ACE_CHECK_RETURN (0);

  return obj_id;
}

PortableServer::IDs *
TAO_POA::reference_to_ids (CORBA::Object_ptr the_ref
                           ACE_ENV_ARG_DECL)
    ACE_THROW_SPEC ((
      CORBA::SystemException,
      PortableServer::NotAGroupObject
    ))
{
  TAO_POA_PortableGroup_Hooks *hooks = this->orb_core_.portable_group_poa_hooks ();
  if (hooks == 0)
    {
      ACE_THROW_RETURN (CORBA::NO_IMPLEMENT (),
                        0);
    }

  PortableServer::IDs *id_list =
    hooks->reference_to_ids (*this, the_ref ACE_ENV_ARG_PARAMETER);
  ACE_CHECK_RETURN (0);

  return id_list;
}

void
TAO_POA::associate_reference_with_id (CORBA::Object_ptr ref,
                                      const PortableServer::ObjectId & oid
                                      ACE_ENV_ARG_DECL)
    ACE_THROW_SPEC ((
      CORBA::SystemException,
      PortableServer::NotAGroupObject
    ))
{
  TAO_POA_PortableGroup_Hooks *hooks = this->orb_core_.portable_group_poa_hooks ();
  if (hooks == 0)
    {
      ACE_THROW (CORBA::NO_IMPLEMENT ());
    }

  hooks->associate_reference_with_id (*this, ref, oid ACE_ENV_ARG_PARAMETER);
  ACE_CHECK;
}

void
TAO_POA::disassociate_reference_with_id (CORBA::Object_ptr ref,
                                         const PortableServer::ObjectId & oid
                                         ACE_ENV_ARG_DECL)
    ACE_THROW_SPEC ((
      CORBA::SystemException,
      PortableServer::NotAGroupObject
    ))
{
  TAO_POA_PortableGroup_Hooks *hooks = this->orb_core_.portable_group_poa_hooks ();
  if (hooks == 0)
    {
      ACE_THROW (CORBA::NO_IMPLEMENT ());
    }

  hooks->disassociate_reference_with_id (*this, ref, oid ACE_ENV_ARG_PARAMETER);
  ACE_CHECK;
}

#endif /* TAO_HAS_MINIMUM_POA == 0 */

void
TAO_POA::Key_To_Object_Params::set (PortableServer::ObjectId_var &system_id,
                                    const char *type_id,
                                    TAO_ServantBase *servant,
                                    CORBA::Boolean collocated,
                                    CORBA::Short priority)
{
  this->system_id_ = &system_id;
  this->type_id_ = type_id;
  this->servant_ = servant;
  this->collocated_ = collocated;
  this->priority_ = priority;
}

#if defined (ACE_HAS_EXPLICIT_TEMPLATE_INSTANTIATION)

template class ACE_Array_Base<TAO_Active_Object_Map::Map_Entry *>;

template class ACE_Map_Entry<TAO_Unbounded_Sequence<unsigned char>, TAO_ServantBase *>;
template class ACE_Hash_Map_Entry<ACE_CString, TAO_POA *>;
template class ACE_Hash_Map_Manager<ACE_CString, TAO_POA *, ACE_Null_Mutex>;
template class ACE_Hash_Map_Manager_Ex<ACE_CString, TAO_POA *, ACE_Hash<ACE_CString>, ACE_Equal_To<ACE_CString>, ACE_Null_Mutex>;
template class ACE_Hash_Map_Iterator<ACE_CString, TAO_POA *, ACE_Null_Mutex>;
template class ACE_Hash_Map_Iterator_Ex<ACE_CString, TAO_POA *, ACE_Hash<ACE_CString>, ACE_Equal_To<ACE_CString>, ACE_Null_Mutex>;
template class ACE_Hash_Map_Reverse_Iterator<ACE_CString, TAO_POA *, ACE_Null_Mutex>;
template class ACE_Hash_Map_Reverse_Iterator_Ex<ACE_CString, TAO_POA *, ACE_Hash<ACE_CString>, ACE_Equal_To<ACE_CString>, ACE_Null_Mutex>;
template class ACE_Hash_Map_Iterator_Base_Ex<ACE_CString, TAO_POA *, ACE_Hash<ACE_CString>, ACE_Equal_To<ACE_CString>, ACE_Null_Mutex>;
template class ACE_Write_Guard<ACE_Lock>;
template class ACE_Read_Guard<ACE_Lock>;
template class ACE_Array_Base <IOP::ProfileId>;

//template class auto_ptr<TAO_Active_Object_Map_Iterator_Impl>;
template class auto_ptr<TAO_Active_Object_Map>;

#  if defined (ACE_LACKS_AUTO_PTR) \
      || !(defined (ACE_HAS_STANDARD_CPP_LIBRARY) \
           && (ACE_HAS_STANDARD_CPP_LIBRARY != 0))
//template class ACE_Auto_Basic_Ptr<TAO_Active_Object_Map_Iterator_Impl>;
template class ACE_Auto_Basic_Ptr<TAO_Active_Object_Map>;
#  endif  /* ACE_LACKS_AUTO_PTR */

template class ACE_Node<TAO_POA *>;

#elif defined (ACE_HAS_TEMPLATE_INSTANTIATION_PRAGMA)

#pragma instantiate ACE_Array_Base<TAO_Active_Object_Map::Map_Entry *>

#pragma instantiate ACE_Map_Entry<TAO_Unbounded_Sequence<unsigned char>, TAO_ServantBase *>
#pragma instantiate ACE_Hash_Map_Entry<ACE_CString, TAO_POA *>
#pragma instantiate ACE_Hash_Map_Manager<ACE_CString, TAO_POA *, ACE_Null_Mutex>
#pragma instantiate ACE_Hash_Map_Manager_Ex<ACE_CString, TAO_POA *, ACE_Hash<ACE_CString>, ACE_Equal_To<ACE_CString>, ACE_Null_Mutex>
#pragma instantiate ACE_Hash_Map_Iterator<ACE_CString, TAO_POA *, ACE_Null_Mutex>
#pragma instantiate ACE_Hash_Map_Iterator_Ex<ACE_CString, TAO_POA *, ACE_Hash<ACE_CString>, ACE_Equal_To<ACE_CString>, ACE_Null_Mutex>
#pragma instantiate ACE_Hash_Map_Reverse_Iterator<ACE_CString, TAO_POA *, ACE_Null_Mutex>
#pragma instantiate ACE_Hash_Map_Reverse_Iterator_Ex<ACE_CString, TAO_POA *, ACE_Hash<ACE_CString>, ACE_Equal_To<ACE_CString>, ACE_Null_Mutex>
#pragma instantiate ACE_Hash_Map_Iterator_Base_Ex<ACE_CString, TAO_POA *, ACE_Hash<ACE_CString>, ACE_Equal_To<ACE_CString>, ACE_Null_Mutex>
#pragma instantiate ACE_Write_Guard<ACE_Lock>
#pragma instantiate ACE_Read_Guard<ACE_Lock>

//#pragma instantiate auto_ptr<TAO_Active_Object_Map_Iterator_Impl>
#pragma instantiate auto_ptr<TAO_Active_Object_Map>

#  if defined (ACE_LACKS_AUTO_PTR) \
      || !(defined (ACE_HAS_STANDARD_CPP_LIBRARY) \
           && (ACE_HAS_STANDARD_CPP_LIBRARY != 0))
//#    pragma instantiate ACE_Auto_Basic_Ptr<TAO_Active_Object_Map_Iterator_Impl>
#    pragma instantiate ACE_Auto_Basic_Ptr<TAO_Active_Object_Map>
#  endif  /* ACE_LACKS_AUTO_PTR */

#pragma instantiate ACE_Node<TAO_POA *>
#pragma instantiate ACE_Array_Base <IOP::ProfileId>
#endif /* ACE_HAS_EXPLICIT_TEMPLATE_INSTANTIATION */