Exemplo n.º 1
0
void
ReplicaController::tao_ft_interception_point (
  PortableInterceptor::ServerRequestInfo_ptr ri,
  CORBA::OctetSeq_out ocs)
{
  FT::FTRequestServiceContext_var ftr (
    extract_context (ri));

  ACE_DEBUG ((LM_DEBUG,
              "(%P|%t) Received request from %s with rid %i\n",
              ftr->client_id.in (),
              ftr->retention_id));

  // Check if this request is eligible for replay.

  RecordId rid (ftr->client_id.in (), ftr->retention_id);

  if (log_.contains (rid))
  {
    ACE_DEBUG ((LM_DEBUG,
                "(%P|%t) Replaying reply for %s with rid %i\n",
                ftr->client_id.in (),
                ftr->retention_id));

    CORBA::OctetSeq_var copy (log_.lookup (rid)); // make a copy

    ocs = copy._retn ();
  }

  return;
}
Exemplo n.º 2
0
void
AssemblyImpl::installComponent 
(Qedo_Components::Deployment::ComponentInstallation_ptr componentInstallation, HomeInstanceData data)
throw( Components::CreateFailure )
{
	std::string package_file_ref = data.file;
	std::string package_file = data_.implementationMap_[package_file_ref];
	std::string impl_id = data.impl_id;
	std::string location = std::string("PACKAGE=") + getFileName(package_file);

	//
	// install
	//
	try
	{
		DEBUG_OUT("..... install implementation ");
		DEBUG_OUT2(".......... destination is ", data.dest);
		DEBUG_OUT2(".......... implementation id is ", impl_id);
		DEBUG_OUT2(".......... package is ", package_file);
		componentInstallation->install(impl_id.c_str(), location.c_str());
	}
	catch(Components::Deployment::InvalidLocation&)
	{
		DEBUG_OUT( ".......... upload required " );
		CORBA::OctetSeq_var octSeq = new CORBA::OctetSeq();
		struct stat statbuff;
		int rt = stat(package_file.c_str(), &statbuff);
		long size = statbuff.st_size;
		octSeq->length(size);
       
		std::ifstream package_stream(package_file.c_str(), std::ios::binary|std::ios::in);
		package_stream.read((char*)octSeq->get_buffer(), size);
		package_stream.close();
        
		//
		// upload first and install afterwards
		//
		try
		{
			location = componentInstallation->upload(impl_id.c_str(), octSeq);
			DEBUG_OUT( ".......... upload done, install now " );
			componentInstallation->install(impl_id.c_str(), location.c_str());
		}
		catch(Components::Deployment::InstallationFailure&)
		{
			throw Components::CreateFailure();
		}
	}
	catch(Components::Deployment::InstallationFailure&)
	{
		NORMAL_ERR( "AssemblyImpl: InstallationFailure during install()" );
		throw Components::CreateFailure();
	}
	catch ( CORBA::SystemException& )
	{
		NORMAL_ERR( "AssemblyImpl: CORBA system exception during install()" );
		NORMAL_ERR( "..... is ComponentInstallation running?" );
		throw Components::CreateFailure();
	}
}
Exemplo n.º 3
0
int ACE_TMAIN (int argc, ACE_TCHAR *argv[])
{

  try
    {
       CORBA::ORB_var orb = CORBA::ORB_init (argc, argv);
       CORBA::Object_var object =
               orb->resolve_initial_references("CodecFactory");

       IOP::CodecFactory_var codec_factory =
               IOP::CodecFactory::_narrow(object.in ());
       IOP::Encoding e = {IOP::ENCODING_CDR_ENCAPS,1,2};

       IOP::Codec_var codec = codec_factory->create_codec(e);

       CORBA::Any any_o;
       Value* value = new OBV_Value;
       any_o <<= &value;

       CORBA::OctetSeq_var bin = codec->encode(any_o);
       CORBA::Any_var any_n = codec->decode(bin.in ());
    }
  catch (const CORBA::Exception& ex)
    {
      ex._tao_print_exception ("Caught a CORBA exception\n");
      return 1;
    }
  catch (...)
    {
      return 1;
    }

  return 0;
}
Exemplo n.º 4
0
CORBA::OctetSeq *ossieSupport::strings_to_octet_sequence(std::vector<std::string> &values)
{
    CORBA::OctetSeq_var result = new CORBA::OctetSeq;

    result->length(values.size());

    for (unsigned int i = 0; i < values.size(); ++i) {
        result[i] = (short) atoi(values[i].c_str());
    }

    return result._retn();
}
void
ServerContainerInterceptor::send_other (Components::ContainerPortableInterceptor::ContainerServerRequestInfo_ptr csi) {
	std::cout << "COPI: send_other: " << csi->request_info()->operation();
	std::cout << " for id:" << csi->component_id() << std::endl;
#ifdef WIN32

	org::coach::tracing::api::TraceEvent_var event = new org::coach::tracing::api::TraceEvent;

	// set time_stamp
	struct _timeb current_time;
	_ftime(&current_time);
	CORBA::LongLong tm = current_time.time;
	tm = tm * 1000 + current_time.millitm;
	event->time_stamp = tm;

	// set ineraction point
	event->interaction_point = org::coach::tracing::api::POA_OUT_EXCEPTION;
	event->trail_label= CORBA::string_dup ("");

	unsigned long event_number = executor_ -> get_new_event_number();
	char cnt[11];
	sprintf (cnt, "__%08x", event_number);
	std::string messageid = process_id_ + cnt;

	event->message_id = CORBA::string_dup (messageid.c_str());

	event->thread_id = CORBA::string_dup ("");
	
	event->trail_id	= CORBA::string_dup (messageid.c_str());
	
	event->event_counter  = event_number;
	event->op_name = CORBA::string_dup (CORBA::string_dup(csi->request_info()->operation()));
	event->identity.object_instance_id		= CORBA::string_dup (csi->name());
	event->identity.object_repository_id	= CORBA::string_dup ("TE");
	event->identity.cmp_name				= CORBA::string_dup (csi->component_id());
	event->identity.cmp_type				= CORBA::string_dup ("UNKNOWN_COMPONENT_TYPE");
	event->identity.cnt_name				= CORBA::string_dup ("UNKNOW_CONTAINER_NAME");
	event->identity.cnt_type				= CORBA::string_dup ("UNKONWN_CONTAINER_TYPE");
	event->identity.node_name				= CORBA::string_dup (hostname_.c_str());
	event->identity.node_ip					= CORBA::string_dup (" e");
	event->identity.process_id				= CORBA::string_dup (process_id_.c_str());

//			Dynamic::ParameterList_var parameters = new Dynamic::ParameterList();
//			parameters->length(0);

	event->parameters.length(0);

	org::coach::tracing::api::TraceEvents_var trace = new org::coach::tracing::api::TraceEvents;
	trace->length(1);
	(*trace)[0] = event;
	context_-> get_connection_to_trace_server() -> receiveEvent(trace.in());

	CORBA::Any out_any;
	out_any <<= messageid.c_str();
	CORBA::OctetSeq_var data = executor_ -> get_cdr_codec_ptr() -> encode_value(out_any);

	IOP::ServiceContext out_sc;

	out_sc.context_id = 100;

	out_sc.context_data.length(data->length());

	memcpy(out_sc.context_data.get_buffer(), data->get_buffer(), data->length());

	csi->request_info()->add_reply_service_context(out_sc, true);

#endif
}
Exemplo n.º 6
0
void
EDF_Scheduler::send_reply (PortableInterceptor::ServerRequestInfo_ptr ri)
{
  int int_guid;
  RTScheduling::Current::IdType_var guid = this->current_->id ();
  ACE_OS::memcpy (&int_guid,
                  guid->get_buffer (),
                  guid->length ());
  DSUI_EVENT_LOG (EDF_SCHED_FAM, ENTER_SEND_REPLY, int_guid, 0, 0);

  Kokyu::Svc_Ctxt_DSRT_QoS sc_qos;

  CORBA::String_var operation = ri->operation ();

#ifdef KOKYU_DSRT_LOGGING
  ACE_DEBUG ((LM_DEBUG,
              "(%t|%T): send_reply from \"%s\"\n",
              ri->operation ()));
#endif

  // Make the context to send the context to the target
  IOP::ServiceContext sc;
  sc.context_id = Server_Interceptor::SchedulingInfo;


  CORBA::Long importance;
  TimeBase::TimeT deadline;

  CORBA::Policy_var sched_policy =
    this->current_->scheduling_parameter();

  if (CORBA::is_nil (sched_policy))
    {
#ifdef KOKYU_DSRT_LOGGING
      ACE_DEBUG ((LM_DEBUG,
                  "(%t|%T): sched_policy nil.\n"));
#endif
      //24 hrs from now - infinity
      ACE_Time_Value deadline_tv = ACE_OS::gettimeofday () + ACE_Time_Value (24*60*60,0);
      deadline = deadline_tv.sec ()*1000000 + deadline_tv.usec ()*10; //100s of nanoseconds for TimeBase::TimeT
      importance = 0;
    }
  else
    {
#ifdef KOKYU_DSRT_LOGGING
      ACE_DEBUG ((LM_DEBUG,
                  "(%t|%T):sched_policy not nil. ",
                  "sched params set\n"));
#endif
      EDF_Scheduling::SchedulingParameterPolicy_var sched_param_policy =
        EDF_Scheduling::SchedulingParameterPolicy::_narrow (sched_policy);
      EDF_Scheduling::SchedulingParameter_var sched_param = sched_param_policy->value ();


      sc_qos.guid.length (guid->length ());
      guid_copy (sc_qos.guid, guid.in ());

      deadline = sched_param->deadline;
      importance = sched_param->importance;
      sc_qos.deadline = deadline;
      sc_qos.importance = importance;

      CORBA::Any sc_qos_as_any;
      sc_qos_as_any <<= sc_qos;

      CORBA::OctetSeq_var cdtmp = codec_->encode (sc_qos_as_any);
      sc.context_data = cdtmp.in ();

      // Add this context to the service context list.
      ri->add_reply_service_context (sc, 1);

#ifdef KOKYU_DSRT_LOGGING
      ACE_DEBUG ((LM_DEBUG, "(%t|%T):reply sc added\n"));
#endif
    }

  kokyu_dispatcher_->update_schedule (guid.in (),
                                      Kokyu::BLOCK);

  DSUI_EVENT_LOG (EDF_SCHED_FAM, EXIT_SEND_REPLY, int_guid, 0, 0);
#ifdef KOKYU_DSRT_LOGGING
  ACE_DEBUG ((LM_DEBUG, "(%t|%T): send_reply interceptor done\n"));
#endif
}
Exemplo n.º 7
0
void
EDF_Scheduler::send_request (PortableInterceptor::ClientRequestInfo_ptr ri)
{
  int int_guid;
  RTScheduling::Current::IdType_var guid = this->current_->id ();
  ACE_OS::memcpy (&int_guid,
                  guid->get_buffer (),
                  guid->length ());

  DSUI_EVENT_LOG (EDF_SCHED_FAM, ENTER_CLIENT_SCHED_TIME, int_guid, 0, 0);
  Kokyu::Svc_Ctxt_DSRT_QoS sc_qos;

  CORBA::String_var operation = ri->operation ();

#ifdef KOKYU_DSRT_LOGGING
  ACE_DEBUG ((LM_DEBUG,
              "(%t|%T): send_request "
              "from \"%s\"\n",
              operation.in ()));
#endif

  // Make the context to send the context to the target
  IOP::ServiceContext sc;
  sc.context_id = Client_Interceptor::SchedulingInfo;

  CORBA::Policy_var sched_policy =
    this->current_->scheduling_parameter();

  CORBA::Long importance;
  TimeBase::TimeT deadline;
  TimeBase::TimeT period;
  int task_id=-1;

  if (CORBA::is_nil (sched_policy))
    {
      //24 hrs from now - infinity
      ACE_Time_Value deadline_tv = ACE_OS::gettimeofday () + ACE_Time_Value (24*60*60,0);
      deadline = deadline_tv.sec () * 10000000 + deadline_tv.usec () * 10; //100s of nanoseconds for TimeBase::TimeT
      importance = 0;
      period = 0; //set period 0 as default.
//      task_id = ID_BEGIN ++;
    }
  else
    {
      EDF_Scheduling::SchedulingParameterPolicy_var sched_param_policy =
        EDF_Scheduling::SchedulingParameterPolicy::_narrow (sched_policy);

      EDF_Scheduling::SchedulingParameter_var sched_param = sched_param_policy->value ();
      deadline = sched_param->deadline;
      importance = sched_param->importance;
      period = sched_param->period;
      task_id = sched_param->task_id;

#ifdef KOKYU_DSRT_LOGGING
      ACE_DEBUG ((LM_DEBUG,
                  "(%t|%T): send_request guid = %d\n",
                  int_guid));
#endif
    }
  //Fill the guid in the SC Qos struct
  sc_qos.guid.length (guid->length ());
  guid_copy (sc_qos.guid, guid.in ());
  sc_qos.deadline = deadline;
  sc_qos.importance = importance;
  sc_qos.task_id = task_id;
  sc_qos.period = period;
  CORBA::Any sc_qos_as_any;
  sc_qos_as_any <<= sc_qos;

  CORBA::OctetSeq_var cdtmp = codec_->encode (sc_qos_as_any);
  sc.context_data = cdtmp.in ();

#ifdef KOKYU_DSRT_LOGGING
  ACE_DEBUG ((LM_DEBUG,
              ACE_TEXT ("(%t|%T): send_request : about to add sched SC\n")));
#endif

  // Add this context to the service context list.
  ri->add_request_service_context (sc, 0);


#ifdef KOKYU_DSRT_LOGGING
  ACE_DEBUG ((LM_DEBUG,
              ACE_TEXT ("(%t|%T): send_request : ")
              ACE_TEXT ("about to call scheduler to inform block\n")
              ));
#endif

  DSUI_EVENT_LOG (EDF_SCHED_FAM, CALL_KOKYU_DISPATCH_UPDATE_SCHEDULE,
                  int_guid, 0, 0);
  kokyu_dispatcher_->update_schedule (guid.in (),
                                      Kokyu::BLOCK);
  DSUI_EVENT_LOG (EDF_SCHED_FAM, LEAVE_KOKYU_DISPATCH_UPDATE_SCHEDULE,
                   int_guid,0,0);

#ifdef KOKYU_DSRT_LOGGING
  ACE_DEBUG ((LM_DEBUG,
              ACE_TEXT ("(%t|%T): send_request interceptor done\n")));
#endif
  DSUI_EVENT_LOG (EDF_SCHED_FAM, LEAVE_CLIENT_SCHED_TIME, int_guid, 0, 0);
}
Exemplo n.º 8
0
void
ReplicaController::send_reply (
  PortableInterceptor::ServerRequestInfo_ptr ri)
{
  FT::FTRequestServiceContext_var ftr (
    extract_context (ri));


  ACE_DEBUG ((LM_DEBUG,
              "(%P|%t) Sending reply for %s with rid %i\n",
              ftr->client_id.in (),
              ftr->retention_id));


  // Prepare reply for logging.

  CORBA::Any_var result =
    ri->result ();

  TAO_OutputCDR cdr;
  result->impl ()->marshal_value (cdr);

  Dynamic::ParameterList_var pl =
    ri->arguments ();

  CORBA::ULong len = pl->length ();

  for (CORBA::ULong index = 0; index != len ; ++index)
  {
    //@@ No chance for PARAM_OUT
    if ((*pl)[index].mode == CORBA::PARAM_INOUT)
    {
      (*pl)[index].argument.impl ()->marshal_value (cdr);
    }
  }

  CORBA::OctetSeq_var reply;

  ACE_NEW (reply.out (), CORBA::OctetSeq (cdr.total_length ()));

  reply->length (cdr.total_length ());

  CORBA::Octet* buf = reply->get_buffer ();

  // @@ What if this throws an exception??  We don't have any way to
  // check whether this succeeded
  for (ACE_Message_Block const* mb = cdr.begin ();
       mb != 0;
       mb = mb->cont ())
  {
    ACE_OS::memcpy (buf, mb->rd_ptr (), mb->length ());
    buf += mb->length ();
  }

  // Logging the reply and state update.
  //

  // First send message to members.
  //
  {
    // Extract state update.

    CORBA::OctetSeq_var oid = ri->object_id ();
    PortableInterceptor::AdapterName_var an = ri->adapter_name ();

    CORBA::Any_var state = ri->get_slot (state_slot_id ());

    CORBA::TypeCode_var tc = state->type ();

    if (tc->kind () == CORBA::tk_null)
    {
      ACE_DEBUG ((LM_DEBUG, "Slot update is void\n"));

      PortableServer::POA_var poa = resolve_poa (an.in ());

      PortableServer::ServantBase_var servant =
        poa->id_to_servant (oid.in ());

      Checkpointable* target =
        dynamic_cast<Checkpointable*> (servant.in ());

      if (target)
      {
        CORBA::Any_var tmp = target->get_state ();

        if (tmp.ptr () != 0) state = tmp._retn ();
      }
    }

    TAO_OutputCDR cdr;

    cdr << oid.in ();
    cdr << an.in ();
    cdr << ftr->client_id.in ();
    cdr << ftr->retention_id;
    cdr << reply.in ();
    cdr << state.in ();

    size_t size = cdr.total_length ();

    CORBA::OctetSeq_var msg;

    ACE_NEW (msg.out (), CORBA::OctetSeq (size));

    msg->length (size);

    {
      CORBA::Octet* buf = msg->get_buffer ();

      for (ACE_Message_Block const* mb = cdr.begin ();
           mb != 0;
           mb = mb->cont ())
      {
        ACE_OS::memcpy (buf, mb->rd_ptr (), mb->length ());
        buf += mb->length ();
      }
    }

    CORBA::Octet* buf = msg->get_buffer ();

    // Crash point 1.
    //
    if (crash_point == 1 && ftr->retention_id > 2) ACE_OS::exit (1);

    try
    {
      while (true)
      {
        try
        {
          group_->send (buf, size);
          ACE_DEBUG ((LM_DEBUG, "Sent log record of length %i\n", size));
          break;
        }
        catch (ACE_TMCast::Group::Aborted const&)
        {
          ACE_DEBUG ((LM_DEBUG, "Retrying to send log record.\n"));
        }
      }
    }
    catch (ACE_TMCast::Group::Failed const&)
    {
      ACE_DEBUG ((LM_DEBUG,
                  "Group failure. Perhaps, I am alone in the group.\n"));
    }
  }


  // Now perform local logging.
  //
  RecordId rid (ftr->client_id.in (), ftr->retention_id);

  // This is slow but eh-safe ;-).
  //
  log_.insert (rid, reply);


  // Crash point 2.
  //
  if (crash_point == 2 && ftr->retention_id > 2) ACE_OS::exit (1);
}
Exemplo n.º 9
0
int
TAO_Object_Adapter::dispatch (TAO::ObjectKey &key,
                              TAO_ServerRequest &request,
                              CORBA::Object_out forward_to)
{
  if (key.length() < TAO_Root_POA::TAO_OBJECTKEY_PREFIX_SIZE
      || ACE_OS::memcmp (key.get_buffer (),
                         &TAO_Root_POA::objectkey_prefix[0],
                         TAO_Root_POA::TAO_OBJECTKEY_PREFIX_SIZE) != 0)
    {
      return TAO_Adapter::DS_MISMATCHED_KEY;
    }

  int result = 0;

#if TAO_HAS_INTERCEPTORS == 1
  TAO::ServerRequestInterceptor_Adapter *sri_adapter =
    orb_core_.serverrequestinterceptor_adapter ();

  try
    {
      if (sri_adapter != 0)
        {
#if TAO_HAS_EXTENDED_FT_INTERCEPTORS == 1
          CORBA::OctetSeq_var ocs;
          sri_adapter->tao_ft_interception_point (request,
                                                 0,  // args
                                                 0,  // nargs
                                                 0,  // servant_upcall
                                                 0,  // exceptions
                                                 0, // nexceptions
                                                 ocs.out ());

          /// If we have a cached result, just go ahead and send the reply
          /// and let us  return
          if (ocs.ptr () != 0)
            {
              // request.result_seq (
              request.send_cached_reply (ocs.inout ());

              return TAO_Adapter::DS_OK;
            }

          // If a PortableInterceptor::ForwardRequest exception was
          // thrown, then set the forward_to object reference and return
          // with the appropriate return status.
          forward_to.ptr () = request.forward_location ();
          if (request.is_forwarded ())
            {
              return TAO_Adapter::DS_FORWARD;
            }
#endif /*TAO_HAS_EXTENDED_FT_INTERCEPTORS*/

          // The receive_request_service_contexts() interception point
          // must be invoked before the operation is dispatched to the
          // servant.
          sri_adapter->receive_request_service_contexts (request,
                                                         0,  // args
                                                         0,  // nargs
                                                         0,  // servant_upcall
                                                         0,  // exceptions
                                                         0);   // nexceptions

          // If a PortableInterceptor::ForwardRequest exception was
          // thrown, then set the forward_to object reference and return
          // with the appropriate return status.
          forward_to.ptr () = request.forward_location ();
          if (request.is_forwarded ())
            {
              return TAO_Adapter::DS_FORWARD;
            }
        }
#endif  /* TAO_HAS_INTERCEPTORS == 1 */

      result = this->dispatch_servant (key, request, forward_to);

#if TAO_HAS_INTERCEPTORS == 1

      if (result == TAO_Adapter::DS_FORWARD)
        {
          request.reply_status (GIOP::LOCATION_FORWARD);
          request.pi_reply_status (PortableInterceptor::LOCATION_FORWARD);
          request.forward_location (forward_to.ptr ());
          if (sri_adapter != 0)
            {
              sri_adapter->send_other (request,
                                       0,  // args
                                       0,  // nargs
                                       0,  // servant_upcall
                                       0,  // exceptions
                                       0   // nexceptions
                                      );
            }
        }
    }
  catch ( ::CORBA::Exception& ex)
    {
      // Just assume the current exception is a system exception, the
      // status can only change when the interceptor changes this
      // and this is only done when the sri_adapter is available. If we
      // don't have an sri_adapter we just rethrow the exception
      PortableInterceptor::ReplyStatus status =
        PortableInterceptor::SYSTEM_EXCEPTION;

      if (sri_adapter != 0)
        {
          request.caught_exception (&ex);

          sri_adapter->send_exception (request,
                                       0,  // args
                                       0,  // nargs
                                       0,  // servant_upcall
                                       0,  // exceptions
                                       0);   // nexceptions

          status = request.pi_reply_status ();
        }

      // Only re-throw the exception if it hasn't been transformed by
      // the send_exception() interception point (e.g. to a
      // LOCATION_FORWARD).
      if (status == PortableInterceptor::SYSTEM_EXCEPTION
          || status == PortableInterceptor::USER_EXCEPTION)
        {
          throw;
        }
    }
#endif  /* TAO_HAS_INTERCEPTORS == 1 */

  return result;
}
Exemplo n.º 10
0
void
MIF_Scheduler::send_reply (PortableInterceptor::ServerRequestInfo_ptr ri)
{
  CORBA::Short importance = 0;
  Kokyu::Svc_Ctxt_DSRT_QoS sc_qos;

  CORBA::String_var operation = ri->operation ();

#ifdef KOKYU_DSRT_LOGGING
  ACE_DEBUG ((LM_DEBUG,
              "(%t|%T): send_reply from \"%s\"\n",
              ri->operation ()));
#endif

  // Make the context to send the context to the target
  IOP::ServiceContext sc;
  sc.context_id = Server_Interceptor::SchedulingInfo;

  CORBA::Policy_var sched_policy =
    this->current_->scheduling_parameter();

  RTScheduling::Current::IdType_var guid = this->current_->id ();

  if (CORBA::is_nil (sched_policy.in ()))
  {
#ifdef KOKYU_DSRT_LOGGING
    ACE_DEBUG ((LM_DEBUG,
                "(%t|%T): sched_policy nil. ",
                "importance not set in sched params\n"));
#endif
    importance = 0;
  }
  else
    {
#ifdef KOKYU_DSRT_LOGGING
      ACE_DEBUG ((LM_DEBUG,
                  "(%t|%T):sched_policy not nil. ",
                  "importance set in sched params\n"));
#endif
      MIF_Scheduling::SchedulingParameterPolicy_var sched_param_policy =
        MIF_Scheduling::SchedulingParameterPolicy::_narrow (sched_policy.in ());

      MIF_Scheduling::SchedulingParameter_var sched_param = sched_param_policy->value ();

      importance = sched_param->importance;

      //Fill the guid in the SC Qos struct
      sc_qos.guid.length (guid->length ());
      guid_copy (sc_qos.guid, guid.in ());
      sc_qos.importance = importance;
      CORBA::Any sc_qos_as_any;
      sc_qos_as_any <<= sc_qos;

      CORBA::OctetSeq_var cdtmp = codec_->encode (sc_qos_as_any);
      sc.context_data = cdtmp.in ();

      // Add this context to the service context list.
      ri->add_reply_service_context (sc, 1);

#ifdef KOKYU_DSRT_LOGGING
      ACE_DEBUG ((LM_DEBUG, "(%t|%T):reply sc added\n"));
#endif
    }

  kokyu_dispatcher_->update_schedule (guid.in (),
                                      Kokyu::BLOCK);

#ifdef KOKYU_DSRT_LOGGING
  ACE_DEBUG ((LM_DEBUG, "(%t|%T): send_reply interceptor done\n"));
#endif
}
Exemplo n.º 11
0
void
MIF_Scheduler::send_request (PortableInterceptor::ClientRequestInfo_ptr ri)
{
  Kokyu::Svc_Ctxt_DSRT_QoS sc_qos;

  CORBA::String_var operation = ri->operation ();

#ifdef KOKYU_DSRT_LOGGING
  ACE_DEBUG ((LM_DEBUG,
              "(%t|%T): send_request "
              "from \"%s\"\n",
              operation.in ()));
#endif

  // Make the context to send the context to the target
  IOP::ServiceContext sc;
  sc.context_id = Client_Interceptor::SchedulingInfo;

  CORBA::Policy_var sched_policy =
    this->current_->scheduling_parameter();

  RTScheduling::Current::IdType_var guid = this->current_->id ();
  /*
  ACE_OS::memcpy (&guid,
                  guid->get_buffer (),
                  guid->length ());
  */
  CORBA::Short importance;
  if (CORBA::is_nil (sched_policy.in ()))
    {
      importance = 0;
    }
  else
    {
      MIF_Scheduling::SchedulingParameterPolicy_var sched_param_policy =
        MIF_Scheduling::SchedulingParameterPolicy::_narrow (sched_policy.in ());

      MIF_Scheduling::SchedulingParameter_var sched_param = sched_param_policy->value ();
      importance = sched_param->importance;

#ifdef KOKYU_DSRT_LOGGING
      int int_guid;
      ACE_OS::memcpy (&int_guid,
                      guid->get_buffer (),
                      guid->length ());
      ACE_DEBUG ((LM_DEBUG,
                  "(%t|%T): send_request importance from current = %d, guid = %d\n",
                  importance, int_guid));
#endif

      //Fill the guid in the SC Qos struct
      sc_qos.guid.length (guid->length ());
      guid_copy (sc_qos.guid, guid.in ());
      sc_qos.importance = importance;
      CORBA::Any sc_qos_as_any;
      sc_qos_as_any <<= sc_qos;

      CORBA::OctetSeq_var cdtmp = codec_->encode (sc_qos_as_any);
      sc.context_data = cdtmp.in ();

#ifdef KOKYU_DSRT_LOGGING
      ACE_DEBUG ((LM_DEBUG,
                  ACE_TEXT ("(%t|%T): send_request : about to add sched SC\n")));
#endif

      // Add this context to the service context list.
      ri->add_request_service_context (sc, 0);
    }


#ifdef KOKYU_DSRT_LOGGING
  ACE_DEBUG ((LM_DEBUG,
              ACE_TEXT ("(%t|%T): send_request : ")
              ACE_TEXT ("about to call scheduler to inform block\n")
              ));
#endif

  kokyu_dispatcher_->update_schedule (guid.in (),
                                      Kokyu::BLOCK);

#ifdef KOKYU_DSRT_LOGGING
  ACE_DEBUG ((LM_DEBUG,
              ACE_TEXT ("(%t|%T): send_request interceptor done\n")));
#endif
}