Exemplo n.º 1
0
int
configure_policies (CORBA::ORB_ptr orb,
                    const TAO::BufferingConstraint &buffering_constraint,
                    Test::AMI_Buffering_ptr ami_buffering,
                    Test::AMI_Buffering_out flusher)
{
  CORBA::Object_var object =
    orb->resolve_initial_references ("PolicyCurrent");

  CORBA::PolicyCurrent_var policy_current =
    CORBA::PolicyCurrent::_narrow (object.in ());

  if (CORBA::is_nil (policy_current.in ()))
    {
      ACE_ERROR ((LM_ERROR, "ERROR: Nil policy current\n"));
      return 1;
    }
  CORBA::Any scope_as_any;
  scope_as_any <<= Messaging::SYNC_NONE;

  CORBA::Any buffering_as_any;
  buffering_as_any <<= buffering_constraint;

  CORBA::PolicyList policies (2); policies.length (2);
  policies[0] =
    orb->create_policy (Messaging::SYNC_SCOPE_POLICY_TYPE,
                        scope_as_any);
  policies[1] =
    orb->create_policy (TAO::BUFFERING_CONSTRAINT_POLICY_TYPE,
                        buffering_as_any);

  policy_current->set_policy_overrides (policies, CORBA::ADD_OVERRIDE);

  policies[0]->destroy ();
  policies[1]->destroy ();

  TAO::BufferingConstraint flush_constraint;
  flush_constraint.mode = TAO::BUFFER_FLUSH;
  flush_constraint.message_count = 0;
  flush_constraint.message_bytes = 0;
  flush_constraint.timeout = 0;

  buffering_as_any <<= flush_constraint;
  policies.length (1);
  policies[0] =
    orb->create_policy (TAO::BUFFERING_CONSTRAINT_POLICY_TYPE,
                        buffering_as_any);

  object =
    ami_buffering->_set_policy_overrides (policies,
                                             CORBA::ADD_OVERRIDE);

  policies[0]->destroy ();

  flusher =
    Test::AMI_Buffering::_narrow (object.in ());

  return 0;
}
Exemplo n.º 2
0
CORBA::Policy_ptr
create_compressor_id_level_list_policy (CORBA::ORB_ptr orb)
{
  ::Compression::CompressorIdLevelList compressor_id_list;

  if (test == 2)
    {
      ACE_DEBUG((LM_DEBUG,
                 ACE_TEXT("*** NOTE TestCompressor is EXPECTED to throw IDL:omg.org/Compression/CompressionException ***\n")));
      compressor_id_list.length(1);
      compressor_id_list[0].compressor_id = COMPRESSORID_FOR_TESTING;
      compressor_id_list[0].compression_level = SERVER_COMPRESSION_LEVEL;
    }
  else
    {
      compressor_id_list.length(2);
      compressor_id_list[0].compressor_id = ::Compression::COMPRESSORID_BZIP2;
      compressor_id_list[0].compression_level = SERVER_COMPRESSION_LEVEL;
      compressor_id_list[1].compressor_id = ::Compression::COMPRESSORID_ZLIB;
      compressor_id_list[1].compression_level = SERVER_COMPRESSION_LEVEL;
      //compressor_id_list[2].compressor_id = COMPRESSORID_FOR_TESTING;
      //compressor_id_list[2].compression_level = SERVER_COMPRESSION_LEVEL;
    }

  CORBA::Any compressor_id_any;
  compressor_id_any <<= compressor_id_list;

  return orb->create_policy (ZIOP::COMPRESSOR_ID_LEVEL_LIST_POLICY_ID, compressor_id_any);
}
Exemplo n.º 3
0
int
insecure_invocation_test (CORBA::ORB_ptr orb,
                          CORBA::Object_ptr obj)
{
  // Disable protection for this insecure invocation test.

  Security::QOP qop = Security::SecQOPNoProtection;

  CORBA::Any no_protection;
  no_protection <<= qop;

  // Create the Security::QOPPolicy.
  CORBA::Policy_var policy =
    orb->create_policy (Security::SecQOPPolicy,
                        no_protection);

  CORBA::PolicyList policy_list (1);
  policy_list.length (1);
  policy_list[0] = CORBA::Policy::_duplicate (policy.in ());

  // Create an object reference that uses plain IIOP (i.e. no
  // protection).
  CORBA::Object_var object =
    obj->_set_policy_overrides (policy_list,
                                CORBA::SET_OVERRIDE);

  Foo::Bar_var server =
    Foo::Bar::_narrow (object.in ());

  if (CORBA::is_nil (server.in ()))
    {
      ACE_ERROR ((LM_ERROR,
                  "(%P|%t) ERROR: Object reference <%s> is "
                  "nil.\n",
                  ior));

      return 1;
    }

  try
    {
      // This invocation should result in a CORBA::NO_PERMISSION
      // exception.
      server->baz ();
    }
  catch (const CORBA::NO_PERMISSION&)
    {
      ACE_DEBUG ((LM_INFO,
                  "(%P|%t) Received CORBA::NO_PERMISSION from "
                  "server, as expected.\n"));

      return 0;
    }

  ACE_ERROR ((LM_ERROR,
              "(%P|%t) ERROR: CORBA::NO_PERMISSION was not thrown.\n"
              "(%P|%t) ERROR: It should have been thrown.\n"));

  return 1;
}
Exemplo n.º 4
0
void
TAO_Notify_Service_Driver::apply_timeout (CORBA::ORB_ptr orb)
{
#if defined (TAO_HAS_CORBA_MESSAGING) && TAO_HAS_CORBA_MESSAGING != 0
  if (this->timeout_ != 0)
    {
      // convert from msec to "TimeT"
      CORBA::Any timeout;
      TimeBase::TimeT value = 10000 * this->timeout_;
      timeout <<= value;

      CORBA::Object_var object =
        orb->resolve_initial_references ("ORBPolicyManager");
      CORBA::PolicyManager_var policy_manager =
        CORBA::PolicyManager::_narrow (object.in ());
      if (CORBA::is_nil (policy_manager.in ()))
        throw CORBA::INTERNAL ();

      CORBA::PolicyList policy_list (1);
      policy_list.length (1);
      policy_list[0] = orb->create_policy (
                              Messaging::RELATIVE_RT_TIMEOUT_POLICY_TYPE,
                              timeout);
      policy_manager->set_policy_overrides (policy_list, CORBA::SET_OVERRIDE);
      policy_list[0]->destroy ();
  }
#else
  ACE_UNUSED_ARG (orb);
#endif /* TAO_HAS_CORBA_MESSAGING != 0 */
}
Exemplo n.º 5
0
void
Lorica_MapperRegistry::init_mappers(PortableServer::POAManager_ptr outward,
				    PortableServer::POAManager_ptr inward,
				    CORBA::ORB_ptr orb,
				    bool has_security)
{
	// first, prevent multiple activation
	if (this->mappers_ready_)
		return;

	// consolidate the mapper list, to append first the generic mapper and
	// then the null mapper.
	if (this->generic_mapper_ != 0) {
		if (Lorica_debug_level > 0) {
			ACE_DEBUG((LM_DEBUG,
				   ACE_TEXT("(%T) %N:%l - adding generic mapper\n")));
		}

		this->add_proxy_mapper(this->generic_mapper_);
		this->generic_mapper_ = 0;
	}

	if (this->null_mapper_ != 0) {
		if (Lorica_debug_level > 0) {
			ACE_DEBUG((LM_DEBUG,
				   ACE_TEXT("(%T) %N:%l - adding null mapper\n")));
		}

		this->add_proxy_mapper (this->null_mapper_);
		this->null_mapper_ = 0;
	}

	if (this->mappers_ != 0) {
		if (Lorica_debug_level > 0) {
			ACE_DEBUG((LM_DEBUG,
				   ACE_TEXT("(%T) %N:%l - calling mapper init on the root.\n")));
		}

		this->mappers_->proxy_mapper_init(outward, inward, orb);
	}

	this->has_security_ = has_security;
#if !defined (LORICA_LACKS_SSLIOP)
	if (has_security) {
		this->sec_policies_.length(1);

		Security::QOP qop = Security::SecQOPIntegrityAndConfidentiality;
		CORBA::Any i_and_c;
		i_and_c <<= qop;

		// Create the Security::QOPPolicy.
		sec_policies_[0] = orb->create_policy(Security::SecQOPPolicy, i_and_c);
	} else
#endif // LORICA_LACKS_SSLIOP 
		this->sec_policies_.length(0);

	this->mappers_ready_ = true;
}
Exemplo n.º 6
0
Arquivo: client.cpp Projeto: manut/TAO
CORBA::Policy_ptr
create_min_ratio_policy (CORBA::ORB_ptr orb)
{
  CORBA::Any min_compression_ratio_any;
  Compression::CompressionRatio min_compression_ratio = 0.50;
  min_compression_ratio_any <<= min_compression_ratio;

  return orb->create_policy (ZIOP::COMPRESSION_MIN_RATIO_POLICY_ID, min_compression_ratio_any);
}
Exemplo n.º 7
0
Arquivo: client.cpp Projeto: manut/TAO
CORBA::Policy_ptr
create_compression_enabled_policy (CORBA::ORB_ptr orb)
{
  // Setting policy whether compression is used.
  CORBA::Boolean compression_enabling = true;
  CORBA::Any compression_enabling_any;
  compression_enabling_any <<= CORBA::Any::from_boolean(compression_enabling);

  return orb->create_policy (ZIOP::COMPRESSION_ENABLING_POLICY_ID, compression_enabling_any);
}
Exemplo n.º 8
0
CORBA::Policy_ptr
create_low_value_policy (CORBA::ORB_ptr orb)
{
  // Setting policy for minimum amount of bytes that needs to be
  // compressed. If a message is smaller than this, it doesn't get
  // compressed
  CORBA::ULong compression_low_value = 100;
  CORBA::Any low_value_any;
  low_value_any <<= compression_low_value;

  return orb->create_policy (ZIOP::COMPRESSION_LOW_VALUE_POLICY_ID, low_value_any);
}
Exemplo n.º 9
0
Arquivo: client.cpp Projeto: manut/TAO
CORBA::Policy_ptr
create_compressor_id_level_list_policy (CORBA::ORB_ptr orb, bool add_zlib_for_test_1)
{
  ::Compression::CompressorIdLevelList compressor_id_list;

  switch (test)
    {
    case 1:
      if (add_zlib_for_test_1)
        compressor_id_list.length(2);
      else
        compressor_id_list.length(1);
      compressor_id_list[0].compressor_id = ::Compression::COMPRESSORID_LZO;
      compressor_id_list[0].compression_level = CLIENT_COMPRESSION_LEVEL;
      if (add_zlib_for_test_1)
        {
          compressor_id_list[1].compressor_id = ::Compression::COMPRESSORID_ZLIB;
          compressor_id_list[1].compression_level = CLIENT_COMPRESSION_LEVEL;
        }
      break;
    case 2:
      compressor_id_list.length(1);
      compressor_id_list[0].compressor_id = COMPRESSORID_FOR_TESTING;
      compressor_id_list[0].compression_level = CLIENT_COMPRESSION_LEVEL;
      break;
    case 3:
    case 4:
    default:
      compressor_id_list.length(2);
      compressor_id_list[0].compressor_id = ::Compression::COMPRESSORID_ZLIB;
      compressor_id_list[0].compression_level = CLIENT_COMPRESSION_LEVEL;
      compressor_id_list[1].compressor_id = ::Compression::COMPRESSORID_BZIP2;
      compressor_id_list[1].compression_level = CLIENT_COMPRESSION_LEVEL;
      break;
    }
  CORBA::Any compressor_id_any;
  compressor_id_any <<= compressor_id_list;

  return orb->create_policy (ZIOP::COMPRESSOR_ID_LEVEL_LIST_POLICY_ID, compressor_id_any);
}
Exemplo n.º 10
0
void
SyncScope_Setup::init (CORBA::ORB_ptr orb,
                       Messaging::SyncScope value)
{
  CORBA::PolicyManager_var policy_manager =
    RIR_Narrow<CORBA::PolicyManager>::resolve (orb,
                                               "ORBPolicyManager");

  CORBA::PolicyList policy_list (1);
  policy_list.length (1);

  CORBA::Any sync_scope;
  sync_scope <<= value;

  // @@ We need a helper class that automatically calls the
  //    destroy() method on each policy...
  policy_list[0] =
    orb->create_policy (Messaging::SYNC_SCOPE_POLICY_TYPE,
                        sync_scope);
  policy_manager->set_policy_overrides (policy_list,
                                        CORBA::ADD_OVERRIDE);

  policy_list[0]->destroy ();
}
Exemplo n.º 11
0
int
TAO_Naming_Server::init_new_naming (CORBA::ORB_ptr orb,
                                    PortableServer::POA_ptr poa,
                                    const ACE_TCHAR *persistence_location,
                                    void *base_addr,
                                    size_t context_size,
                                    int enable_multicast,
                                    int use_storable_context,
                                    int round_trip_timeout,
                                    int use_round_trip_timeout)
{
  try
    {
#if defined (CORBA_E_MICRO)
      ACE_UNUSED_ARG (persistence_location);
      ACE_UNUSED_ARG (base_addr);
      ACE_UNUSED_ARG (use_storable_context);
#else
      if (use_storable_context)
        {
          // In lieu of a fully implemented service configurator version
          // of this Reader and Writer, let's just take something off the
          // command line for now.
          TAO::Storable_Factory* pf = 0;
          ACE_CString directory (ACE_TEXT_ALWAYS_CHAR (persistence_location));
          ACE_NEW_RETURN (pf, TAO::Storable_FlatFileFactory (directory), -1);
          auto_ptr<TAO::Storable_Factory> persFactory(pf);

          // Use an auto_ptr to ensure that we clean up the factory in the case
          // of a failure in creating and registering the Activator.
          TAO_Storable_Naming_Context_Factory* cf =
            this->storable_naming_context_factory (context_size);
          // Make sure we got a factory
          if (cf == 0) return -1;
          auto_ptr<TAO_Storable_Naming_Context_Factory> contextFactory (cf);

          // This instance will either get deleted after recreate all or,
          // in the case of a servant activator's use, on destruction of the
          // activator.

          // Was a location specified?
          if (persistence_location == 0)
            {
              // No, assign the default location "NameService"
              persistence_location = ACE_TEXT ("NameService");
            }

          // Now make sure this directory exists
          if (ACE_OS::access (persistence_location, W_OK|X_OK))
            {
              ORBSVCS_ERROR_RETURN ((LM_ERROR, "Invalid persistence directory\n"), -1);
            }

#if (TAO_HAS_MINIMUM_POA == 0) && !defined (CORBA_E_COMPACT)
          if (this->use_servant_activator_)
            {
              ACE_NEW_THROW_EX (this->servant_activator_,
                                TAO_Storable_Naming_Context_Activator (orb,
                                                                       persFactory.get(),
                                                                       contextFactory.get (),
                                                                       persistence_location),
                                CORBA::NO_MEMORY ());
              this->ns_poa_->set_servant_manager(this->servant_activator_);
            }
#endif /* TAO_HAS_MINIMUM_POA */
          try {  // The following might throw an exception.
            this->naming_context_ =
              TAO_Storable_Naming_Context::recreate_all (orb,
              poa,
              TAO_ROOT_NAMING_CONTEXT,
              context_size,
              0,
              contextFactory.get (),
              persFactory.get (),
              use_redundancy_);
          }
          catch (const CORBA::Exception& ex)
          {
            // The activator already took over the factories so we need to release the auto_ptr
            if (this->use_servant_activator_)
            {
              // The context factory is now owned by the activator
              // so we should release it
              contextFactory.release ();
              // If using a servant activator, the activator now owns the
              // factory, so we should release it
              persFactory.release ();
            }
            // Print out the exception and return failure
            ex._tao_print_exception (
              "TAO_Naming_Server::init_new_naming");
            return -1;
          }

        // Kind of a duplicate of the above here, but we must also release the
        // factory autoptrs in the good case as well.
        if (this->use_servant_activator_)
            {
              // The context factory is now owned by the activator
              // so we should release it
              contextFactory.release ();
              // If using a servant activator, the activator now owns the
              // factory, so we should release it
              persFactory.release ();
            }

      }
      else if (persistence_location != 0)
        //
        // Initialize Persistent Naming Service.
        //
        {

          // Create Naming Context Implementation Factory to be used for the creation of
          // naming contexts by the TAO_Persistent_Context_Index
          TAO_Persistent_Naming_Context_Factory *naming_context_factory =
            this->persistent_naming_context_factory ();
          // Make sure we got a factory.
          if (naming_context_factory == 0) return -1;

          // Allocate and initialize Persistent Context Index.
          ACE_NEW_RETURN (this->context_index_,
                          TAO_Persistent_Context_Index (orb, poa, naming_context_factory),
                          -1);

          if (this->context_index_->open (persistence_location,
                                          base_addr) == -1
              || this->context_index_->init (context_size) == -1)
            {
              if (TAO_debug_level >0)
                ORBSVCS_DEBUG ((LM_DEBUG,
                            "TAO_Naming_Server: context_index initialization failed\n"));
              return -1;
            }

          // Set the root Naming Context reference.
          this->naming_context_ =
            this->context_index_->root_context ();
        }
      else
#endif /* CORBA_E_MICRO */
        {
          //
          // Initialize Transient Naming Service.
          //
          this->naming_context_ =
            TAO_Transient_Naming_Context::make_new_context (poa,
                                                            TAO_ROOT_NAMING_CONTEXT,
                                                            context_size);

        }

#if !defined (CORBA_E_MICRO)
      // Register with the ORB's resolve_initial_references()
      // mechanism.  Primarily useful for dynamically loaded Name
      // Services.
      orb->register_initial_reference ("NameService",
                                       this->naming_context_.in ());
#endif /* CORBA_E_MICRO */

      // Set the ior of the root Naming Context.
      this->naming_service_ior_=
        orb->object_to_string (this->naming_context_.in ());

      CORBA::Object_var table_object =
        orb->resolve_initial_references ("IORTable");

      IORTable::Table_var adapter =
        IORTable::Table::_narrow (table_object.in ());
      if (CORBA::is_nil (adapter.in ()))
        {
          ORBSVCS_ERROR ((LM_ERROR, "Nil IORTable\n"));
        }
      else
        {
          CORBA::String_var ior =
            orb->object_to_string (this->naming_context_.in ());
          adapter->bind ("NameService", ior.in ());
        }

#if defined (ACE_HAS_IP_MULTICAST)
      if (enable_multicast)
        {
          // @@ Marina: is there anyway to implement this stuff
          // without using ORB_Core_instance()? For example can you
          // pass the ORB as an argument?

          //
          // Install ior multicast handler.
          //
          // Get reactor instance from TAO.
          ACE_Reactor *reactor = orb->orb_core()->reactor ();

          // See if the -ORBMulticastDiscoveryEndpoint option was specified.
          ACE_CString mde (orb->orb_core ()->orb_params ()->mcast_discovery_endpoint ());

          // First, see if the user has given us a multicast port number
          // on the command-line;
          u_short port =
            orb->orb_core ()->orb_params ()->service_port (TAO::MCAST_NAMESERVICE);

          if (port == 0)
            {
              // Check environment var. for multicast port.
              const char *port_number =
                ACE_OS::getenv ("NameServicePort");

              if (port_number != 0)
                port = static_cast<u_short> (ACE_OS::atoi (port_number));
            }

          // Port wasn't specified on the command-line or in environment -
          // use the default.
          if (port == 0)
            port = TAO_DEFAULT_NAME_SERVER_REQUEST_PORT;

          // Instantiate a handler which will handle client requests for
          // the root Naming Context ior, received on the multicast port.
          ACE_NEW_RETURN (this->ior_multicast_,
                          TAO_IOR_Multicast (),
                          -1);

          if (mde.length () != 0)
            {
              if (this->ior_multicast_->init (this->naming_service_ior_.in (),
                                              mde.c_str (),
                                              TAO_SERVICEID_NAMESERVICE) == -1)
                return -1;
            }
          else
            {
              if (this->ior_multicast_->init (this->naming_service_ior_.in (),
                                              port,
#if defined (ACE_HAS_IPV6)
                                              ACE_DEFAULT_MULTICASTV6_ADDR,
#else
                                              ACE_DEFAULT_MULTICAST_ADDR,
#endif /* ACE_HAS_IPV6 */
                                              TAO_SERVICEID_NAMESERVICE) == -1)
                return -1;
            }

          // Register event handler for the ior multicast.
          if (reactor->register_handler (this->ior_multicast_,
                                         ACE_Event_Handler::READ_MASK) == -1)
            {
              if (TAO_debug_level > 0)
                ORBSVCS_DEBUG ((LM_DEBUG,
                            "TAO_Naming_Server: cannot register Event handler\n"));
              return -1;
            }

          if (TAO_debug_level > 0)
            ORBSVCS_DEBUG ((LM_DEBUG,
                        "TAO_Naming_Server: The multicast server setup is done.\n"));
        }
#else
  ACE_UNUSED_ARG (enable_multicast);
#endif /* ACE_HAS_IP_MULTICAST */

#if defined (TAO_HAS_CORBA_MESSAGING) && TAO_HAS_CORBA_MESSAGING != 0
      if (use_round_trip_timeout == 1)
      {
        TimeBase::TimeT roundTripTimeoutVal = round_trip_timeout;
        CORBA::Any anyObjectVal;
        anyObjectVal <<= roundTripTimeoutVal;
        CORBA::PolicyList polList (1);
        polList.length (1);
        polList[0] = orb->create_policy (Messaging::RELATIVE_RT_TIMEOUT_POLICY_TYPE,
                                         anyObjectVal);

        // set a timeout on the orb
        //
        CORBA::Object_var orbPolicyManagerObj =
          orb->resolve_initial_references ("ORBPolicyManager");

        CORBA::PolicyManager_var orbPolicyManager =
          CORBA::PolicyManager::_narrow (orbPolicyManagerObj.in ());
        orbPolicyManager->set_policy_overrides (polList, CORBA::SET_OVERRIDE);

        polList[0]->destroy ();
        polList[0] = CORBA::Policy::_nil ();
      }
#else
  ACE_UNUSED_ARG (use_round_trip_timeout);
  ACE_UNUSED_ARG (round_trip_timeout);
#endif /* TAO_HAS_CORBA_MESSAGING */
    }
  catch (const CORBA::Exception& ex)
    {
      ex._tao_print_exception (
        "TAO_Naming_Server::init_new_naming");
      return -1;
    }

  return 0;
}
Exemplo n.º 12
0
void
setup_buffering_constraints (CORBA::ORB_ptr orb)
{
  // Obtain PolicyCurrent.
  CORBA::Object_var object = orb->resolve_initial_references ("PolicyCurrent");

  // Narrow down to correct type.
  CORBA::PolicyCurrent_var policy_current =
    CORBA::PolicyCurrent::_narrow (object.in ());

  // Start off with no constraints.
  TAO::BufferingConstraint buffering_constraint;
  buffering_constraint.mode = TAO::BUFFER_MESSAGE_COUNT;
  buffering_constraint.message_count = message_count;
  buffering_constraint.message_bytes = 0;
  buffering_constraint.timeout = 0;

  // Setup the buffering constraint any.
  CORBA::Any buffering_constraint_any;
  buffering_constraint_any <<= buffering_constraint;

  // Setup the buffering constraint policy list.
  CORBA::PolicyList buffering_constraint_policy_list (1);
  buffering_constraint_policy_list.length (1);

  // Setup the buffering constraint policy.
  buffering_constraint_policy_list[0] =
    orb->create_policy (TAO::BUFFERING_CONSTRAINT_POLICY_TYPE,
                        buffering_constraint_any);

  // Setup the constraints (at the ORB level).
  policy_current->set_policy_overrides (buffering_constraint_policy_list,
                                        CORBA::ADD_OVERRIDE);

  // We are done with the policy.
  buffering_constraint_policy_list[0]->destroy ();

  // Setup the none sync scope policy, i.e., the ORB will buffer AMI
  // calls.
  Messaging::SyncScope sync_none = Messaging::SYNC_NONE;

  // Setup the none sync scope any.
  CORBA::Any sync_none_any;
  sync_none_any <<= sync_none;

  // Setup the none sync scope policy list.
  CORBA::PolicyList sync_none_policy_list (1);
  sync_none_policy_list.length (1);

  // Setup the none sync scope policy.
  sync_none_policy_list[0] =
    orb->create_policy (Messaging::SYNC_SCOPE_POLICY_TYPE,
                        sync_none_any);

  // Setup the none sync scope (at the ORB level).
  policy_current->set_policy_overrides (sync_none_policy_list,
                                        CORBA::ADD_OVERRIDE);

  // We are now done with these policies.
  sync_none_policy_list[0]->destroy ();
}