void filter_delay_fc_2i_base::processStreamIdChanges() {

  boost::mutex::scoped_lock lock(_sriMutex);

  LOG_TRACE( filter_delay_fc_2i_base, "processStreamIDChanges QUEUE: " << _sriQueue.size()  );
  if (  _sriQueue.size() == 0 ) return;
  std::string sid("");

  if ( validGRBlock() ) {

    IStreamList::iterator istream;
    int idx=0;
    std::string sid("");
    int mode=0;
    SRIQueue::iterator item = _sriQueue.begin();
    
    for ( ; item != _sriQueue.end(); item++ ) {
       idx = 0;
       sid = "";
       mode= item->second.mode;
       sid = item->second.streamID;
       istream = _istreams.begin();
       for ( ; istream != _istreams.end(); idx++, istream++ ) {

	   if ( istream->port == item->first ) {
	       LOG_DEBUG(  filter_delay_fc_2i_base,  "  SETTING IN_STREAM ID/STREAM_ID :" << idx << "/" << sid  );
	       istream->sri(true);
	       istream->spe(mode);

	       LOG_DEBUG(  filter_delay_fc_2i_base,  "  SETTING  OUT_STREAM ID/STREAM_ID :" << idx << "/" << sid  );
	       setOutputStreamSRI( idx, item->second );
           }
       }

   }

   _sriQueue.clear();
     
  }
  else {
 	LOG_WARN(  filter_delay_fc_2i_base, " NEW STREAM ID, NO GNU RADIO BLOCK DEFINED, SRI QUEUE SIZE:" << _sriQueue.size() );
  }

}
コード例 #2
0
void randomizer_base::setupIOMappings( )
{
    int ninput_streams = 0;
    int noutput_streams = 0;
    std::vector<std::string>::iterator pname;
    std::string sid("");
    int inMode=RealMode;

    if ( !validGRBlock() ) return;
    ninput_streams  = gr_sptr->get_max_input_streams();
    gr_io_signature_sptr g_isig = gr_sptr->input_signature();

    noutput_streams = gr_sptr->get_max_output_streams();
    gr_io_signature_sptr g_osig = gr_sptr->output_signature();

    LOG_DEBUG( randomizer_base, "GNUHAWK IO MAPPINGS IN/OUT " << ninput_streams << "/" << noutput_streams );

    //
    // Someone reset the GR Block so we need to clean up old mappings if they exists
    // we need to reset the io signatures and check the vlens
    //
    if ( _istreams.size() > 0 || _ostreams.size() > 0 ) {

        LOG_DEBUG( randomizer_base, "RESET INPUT SIGNATURE SIZE:" << _istreams.size() );
        IStreamList::iterator istream;
        for ( int idx=0 ; istream != _istreams.end(); idx++, istream++ ) {
            // re-add existing stream definitons
            LOG_DEBUG(  randomizer_base, "ADD READ INDEX TO GNU RADIO BLOCK");
            if ( ninput_streams == -1 ) gr_sptr->add_read_index();

            // setup io signature
            istream->associate( gr_sptr );
        }

        LOG_DEBUG( randomizer_base, "RESET OUTPUT SIGNATURE SIZE:" << _ostreams.size() );
        OStreamList::iterator ostream;
        for ( int idx=0 ; ostream != _ostreams.end(); idx++, ostream++ ) {
            // need to evaluate new settings...???
            ostream->associate( gr_sptr );
        }

        return;
    }


   //
   // Setup mapping of RH port to GNU RADIO Block input streams
   // For version 1,  we are ignoring the GNU Radio input stream -1 case that allows multiple data 
   // streams over a single connection.  We are mapping a single RH Port to a single GNU Radio stream.
   // Stream Identifiers will  be pass along as they are received
   //
    LOG_TRACE( randomizer_base, "setupIOMappings INPUT PORTS: " << inPorts.size() );
    pname = inputPortOrder.begin();
    for( int i=0; pname != inputPortOrder.end(); pname++ ) {

        // grab ports based on their order in the scd.xml file
        RH_ProvidesPortMap::iterator p_in = inPorts.find(*pname);
        if ( p_in != inPorts.end() ) {
            bulkio::InOctetPort *port = dynamic_cast< bulkio::InOctetPort * >(p_in->second);
            int mode = inMode;
            sid = "";

            // need to add read index to GNU Radio Block for processing streams when max_input == -1
            if ( ninput_streams == -1 ) gr_sptr->add_read_index();

            // check if we received SRI during setup
            BULKIO::StreamSRISequence_var sris = port->activeSRIs();
            if (  sris->length() > 0 ) {
                BULKIO::StreamSRI sri = sris[sris->length()-1];
                mode = sri.mode;
            }
            std::vector<int> in;
            io_mapping.push_back( in );
            _istreams.push_back( gr_istream< bulkio::InOctetPort > ( port, gr_sptr, i, mode, sid ));
            LOG_DEBUG( randomizer_base, "ADDING INPUT MAP IDX:" << i << " SID:" << sid );
            // increment port counter
            i++;
        }
    } 

    //
    // Setup mapping of RH port to GNU RADIO Block input streams
    // For version 1,  we are ignoring the GNU Radio output stream -1 case that allows multiple data 
    // streams over a single connection.  We are mapping a single RH Port to a single GNU Radio stream.
    //
    LOG_TRACE( randomizer_base, "setupIOMappings OutputPorts: " << outPorts.size() );
    pname = outputPortOrder.begin();
    for( int i=0; pname != outputPortOrder.end(); pname++ ) {

        // grab ports based on their order in the scd.xml file
        RH_UsesPortMap::iterator p_out = outPorts.find(*pname);
        if ( p_out != outPorts.end() ) {
            bulkio::OutOctetPort *port = dynamic_cast< bulkio::OutOctetPort * >(p_out->second);
            int idx = -1;
            BULKIO::StreamSRI sri = createOutputSRI( i, idx );
            if (idx == -1) idx = i;
            if(idx < (int)io_mapping.size()) io_mapping[idx].push_back(i);
            int mode = sri.mode;
            sid = sri.streamID;
            _ostreams.push_back( gr_ostream< bulkio::OutOctetPort > ( port, gr_sptr, i, mode, sid ));
            LOG_DEBUG( randomizer_base, "ADDING OUTPUT MAP IDX:" << i << " SID:" << sid );
            _ostreams[i].setSRI(sri, i );
            // increment port counter
            i++;
        }
    }
}
コード例 #3
0
void copy_octet_base::processStreamIdChanges() {

  boost::mutex::scoped_lock lock(_sriMutex);

  LOG_TRACE( copy_octet_base, "processStreamIDChanges QUEUE: " << _sriQueue.size()  );
  if (  _sriQueue.size() == 0 ) return;
  std::string sid("");

  if ( validGRBlock() ) {
    int max_input =  gr_sptr->get_max_input_streams();
    int n_input = gr_sptr->get_num_input_streams();
    LOG_TRACE( copy_octet_base, " IN_MAX=" << max_input << " N_IN:" << n_input);
    int max_output =  gr_sptr->get_max_output_streams();
    int n_output = gr_sptr->get_num_output_streams(); 
    LOG_TRACE( copy_octet_base, " OUT_MAX=" << max_output << " N_OUT:" << n_output);          

    bool var_istreams = false;
    if ( max_input == -1 && inPorts.size() == 1 ) 
       var_istreams = true;

    bool var_ostreams = false;
    if ( max_output == -1 && outPorts.size() == 1 ) 
       var_ostreams = true;    

    IStreamList::iterator istream;
    int idx=0;
    std::string sid("");
    int mode=0;
    SRIQueue::iterator item = _sriQueue.begin();
    
    for ( ; item != _sriQueue.end(); item++ ) {
       idx = 0;
       sid = "";
       mode= item->second.mode;
       sid = item->second.streamID;
       istream = _istreams.begin();
       for ( ; istream != _istreams.end(); idx++, istream++ ) {
	   if ( !var_istreams && istream->port == item->first ) {
	      break;
	   }
	   else if ( var_istreams && (istream->port == item->first) && (istream->streamID == sid) )  {
	        break;
	  }
       }

       if ( istream == _istreams.end() ) {
          if ( var_istreams )  {
	     if ( gr_sptr ) gr_sptr->add_read_index();
	     _istreams.push_back( gr_istream< BULKIO_dataOctet_In_i >( item->first, sid, gr_sptr, idx, mode ) );
             LOG_TRACE( copy_octet_base, "GR_ISTREAM::ADD  PORT:" << item->first->getName() << " STREAM_ID:" << sid << " NSTREAMS:" << _istreams.size());

	     if ( var_ostreams ) {
	     	RH_UsesPortMap::iterator p_out = outPorts.begin();
		_ostreams.push_back( gr_ostream < BULKIO_dataOctet_Out_i >( dynamic_cast< BULKIO_dataOctet_Out_i *>(p_out->second), sid, gr_sptr, idx ));
	        LOG_TRACE( copy_octet_base, "GR_OSTREAM::ADD  PORT:" << p_out->second->getName() << " STREAM_ID:" << sid << " OSTREAMS:" << _ostreams.size());
             }    
	  }
	  else {
	       LOG_WARN( copy_octet_base, " NEW STREAM ID, MISSING INPUT STREAM DEFINITION"  );
	  }
       }
       else if ( !var_istreams ) {
	    LOG_DEBUG(  copy_octet_base,  "  SETTING GR_OSTREAM ID/STREAM_ID :" << idx << "/" << sid  );
	    istream->sri(true);
	    istream->spe(mode);
       }

       LOG_DEBUG(  copy_octet_base,  "  GR_OSTREAM ID/STREAM_ID :" << idx << "/" << sid  );
       setOutputStreamSRI( idx, item->second );
	        
    }

     _sriQueue.clear();
     
  }
  else {
 	LOG_WARN(  copy_octet_base, " NEW STREAM ID, NO GNU RADIO BLOCK DEFINED, SRI QUEUE SIZE:" << _sriQueue.size() );
  }
      

 LOG_TRACE(  copy_octet_base,  "processStreamID,  GR_ISTREAM MAP SIZE:"  << _istreams.size() );

}
コード例 #4
0
void copy_octet_base::setupIOMappings()
{
  int ninput_streams = 0;
  int noutput_streams = 0;

  if ( !validGRBlock() ) return;
  
  ninput_streams  = gr_sptr->get_max_input_streams();
  gr_io_signature_sptr g_isig = gr_sptr->input_signature();  
  noutput_streams = gr_sptr->get_max_output_streams();
  gr_io_signature_sptr g_osig = gr_sptr->output_signature();

  //
  // RESOLVE: Still need to resolve the issue with the input port/stream to output port.  We also need to resolve issue
  // with "ganging" ports together as an input to a GNU RADIO Block. transform cplx to real ... r/i -> float
  //
  
  LOG_DEBUG( copy_octet_base, "GNUHAWK IO MAPPINGS IN/OUT " << ninput_streams << "/" << noutput_streams );
  std::string sid("");

  //
  // Someone reset the GR Block so we need to clean up old mappings if they exists
  // we need to reset the io signatures and check the vlens
  //
 
 
   if ( _istreams.size() > 0 || _ostreams.size() > 0 ) {


 
    LOG_DEBUG(  copy_octet_base, "RESET INPUT SIGNATURE SIZE:" << _istreams.size() );
    IStreamList::iterator istream;
    for ( int idx=0 ; istream != _istreams.end(); idx++, istream++ ) {
        // re-add existing stream definitons
      LOG_DEBUG(  copy_octet_base, "ADD READ INDEX TO GNU RADIO BLOCK");
      if ( ninput_streams == -1 ) gr_sptr->add_read_index();

      // setup io signature 
      istream->associate( gr_sptr );
    }
 
    LOG_DEBUG(  copy_octet_base, "RESET OUTPUT SIGNATURE SIZE:" << _ostreams.size() );
    OStreamList::iterator ostream;
    for ( int idx=0 ; ostream != _ostreams.end(); idx++, ostream++ ) {
        // need to evaluated new settings...???
        ostream->associate( gr_sptr );
    }

    return;
  }


     
  // setup mapping of RH Port to GNU RADIO BLOCK input streams as a 1-1 mapping (basically we ignore streamID when pulling data from port)
  // for case ninput == -1 and 1 port we map out streamID to each GNU Radio Block input stream this is done in the notifySRI callback method
  if ( ninput_streams != -1 || ( ninput_streams == -1 && inPorts.size() > 1 ) ) {
  
    int nstreams = inPorts.size();
    if ( ninput_streams != -1 ) nstreams = std::min( nstreams, ninput_streams);
    
    RH_ProvidesPortMap::iterator p_in = inPorts.begin();
    for ( int i=0; i < nstreams && p_in != inPorts.end(); i++, p_in++ ) {
      // need to add read index to GNU Radio Block for processing, 
      if ( ninput_streams == -1 ) gr_sptr->add_read_index();
      _istreams.push_back( gr_istream< BULKIO_dataOctet_In_i > ( dynamic_cast< BULKIO_dataOctet_In_i * >(p_in->second), sid, gr_sptr, i));
    }
  }
  else {   // ninput_stream is variable == -1 and  component ports == 1
    //
    // need to worry about sync between when service function starts and pushSRI happens, 
    //
    for ( RH_ProvidesPortMap::iterator p_in = inPorts.begin(); p_in != inPorts.end(); p_in++ ) {

      BULKIO_dataOctet_In_i *port = dynamic_cast< BULKIO_dataOctet_In_i * >(p_in->second);
      BULKIO::StreamSRISequence_var sris = port->activeSRIs();
      for ( uint32_t i=0 ; i < sris->length(); i++ ) {
         BULKIO::StreamSRI sri = sris[i];
         int mode = sri.mode;
	 sid = sri.streamID;
	 _istreams.push_back( gr_istream< BULKIO_dataOctet_In_i > ( port, sid, gr_sptr, i, mode ));
      }
	  
    }
  }
 

  if ( noutput_streams != -1  || (noutput_streams == -1 && outPorts.size() > 1  ) ) {
    int32_t nstreams = outPorts.size();
    if ( noutput_streams != -1 ) {
      if ( nstreams != noutput_streams ) 
         LOG_WARN( copy_octet_base, "Number of OUTPUT PORTS is different than number of GNU RADIO STREAMS  PORTS/STREAMS " <<  nstreams << "/" << noutput_streams );
      nstreams = std::min( nstreams, noutput_streams);
    }

    // add number of output streams based min ( gr block output streams, or output ports)
    LOG_TRACE( copy_octet_base, "setupIOMappings OutputPorts: " << nstreams );
    RH_UsesPortMap::iterator p_out = outPorts.begin();
    for ( int i=0; i < nstreams && p_out != outPorts.end(); i++, p_out++ ) {
       _ostreams.push_back( gr_ostream < BULKIO_dataOctet_Out_i >( dynamic_cast< BULKIO_dataOctet_Out_i *>(p_out->second), sid, gr_sptr, i ));
    }
  } 
  else if ( (noutput_streams == -1 && outPorts.size() == 1) && ( ninput_streams == 0 ) ) {
    // RESOLVE: should generate maps based on port connections when output streams is variable and no input stream
    RH_UsesPortMap::iterator p_out = outPorts.begin();
    uint32_t idx =0;
    std::string sid("");
    uint32_t nstreams = getNOutputStreams();
    for( ; idx < nstreams; idx++ ) {
       _ostreams.push_back( gr_ostream < BULKIO_dataOctet_Out_i >( dynamic_cast< BULKIO_dataOctet_Out_i *>(p_out->second), sid, gr_sptr, idx ));
    }
  }

  // for each output stream definition, call createOutputSRI to create initial value for the stream 
  OStreamList::iterator ostream = _ostreams.begin();
  for ( int i=0;  ostream != _ostreams.end(); i++, ostream++ ) {
    BULKIO::StreamSRI sri = createOutputSRI( i );
    ostream->setSRI(sri, i );
    ostream->pushSRI();
  }
  
     
}