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/***************************************************************************
                          sua_cl.cpp  -  description
                             -------------------
    begin                : Tue Jan 8 2002
    copyright            : (C) 2002 by Lode Coene
    email                : lode.coene@siemens.atea.be
 ***************************************************************************/

/***************************************************************************
 *                                                                         *
 *   This program is free software; you can redistribute it and/or modify  *
 *   it under the terms of the GNU General Public License as published by  *
 *   the Free Software Foundation; either version 2 of the License, or     *
 *   (at your option) any later version.                                   *
 *                                                                         *
 ***************************************************************************/
/*
 *  $Id: sua_cl.cpp,v 1.1.1.1 2002/02/04 14:30:41 p82609 Exp $
 *
 * SUA implementation according to SUA draft issue 6.
 *
 * Author(s): Lode Coene
 *            
 *
 * Copyright (C) 2001 by Siemens Atea, Herentals, Belgium.
 *
 * Realized in co-operation between Siemens Atea and 
 * Siemens AG, Munich, Germany.
 *
 * This program is free software; you can redistribute it and/or
 * modify it under the terms of the GNU General Public License
 * as published by the Free Software Foundation; either version 2
 * of the License, or (at your option) any later version.
 *
 * This program is distributed in the hope that it will be useful,
 * but WITHOUT ANY WARRANTY; without even the implied warranty of
 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
 * GNU General Public License for more details.
 *
 * You should have received a copy of the GNU General Public License
 * along with this program; if not, write to the Free Software
 * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA  02111-1307, USA.
 *
 * Contact: gery.verwimp@siemens.atea.be
 *          lode.coene@siemens.atea.be
 *
 * The alternative comment
 * inspiration : Dorothee
 * "Always admire the local beauties in their natural enviroment."
 *
 * Purpose: This code-file defines the SUA connectionless message handling:  
 *          - send a Unitdata msg to remote node
 *          (- send a Unitdata Service msg to remote node)           
 *          - Process a Unitdata msg
 *          (- Process a Unitdata Service msg)   
 */


#include "sua_debug.h"
#include "sua_syntax.h"
#include "sua_database.h"
#include "sua_logging.h"
#include "sua_distribution.h"
#include "sua_tcb.h"

#ifdef LINUX
    #include <unistd.h>
#endif


#include <cstdio>
#include <iostream>
#include <cstdlib>
#include <string>
#include <vector>

#include <netinet/in_systm.h>
#include <netinet/ip.h>         /* includes <netinet/in.h> also ! */
#include <netinet/ip_icmp.h>
#include <netdb.h>
#include <arpa/inet.h>

using namespace std;

// import the dataobjects of SUA
extern db_Sua_LocalList local_sua;
extern db_Sua_RemoteList remote_sua;
extern db_Sua_AssociationList Assoc_sua;

extern tcb_Sua_msgqueue_pool  msg_store;

// import the received msg pool
extern vector<sua_save_str> rec_msg_pool;

/***********************************************************************/
/* sua_send_Unitdata                                                   */
/***********************************************************************/
int sua_send_Unitdata(sccp_QOS_str   &QOS,
		      sccp_addr_str  &called_pty_address,
		      sccp_addr_str  &calling_pty_address,
		      char           *buffer,
		      unsigned int   len
		     )
{
  Sua_container msg;
  Sua_syntax_error_struct error;
  int error_value;
  int string_size, datalen;
  signed int sctp_assoc_id;
  unsigned int sua_assoc_id;
  short stream_id = 0;
  int delivery_type, result;
  tcb_Sua_msg_elem   sua_msg;

  // init the message
  msg.sua_init();

  // fill in the main sua header
  msg.sua_prim.hdr_msg_class = sua_cl;
  msg.sua_prim.hdr_msg_type.cl = cl_data_transfer;

  msg.sua_prim.rout_con_pres = TRUE;
  msg.sua_prim.rout_con = 1;
  msg.sua_prim.importance_pres = TRUE;
  msg.sua_prim.importance = 5;
  msg.sua_prim.hop_count_pres = TRUE;
  msg.sua_prim.hop_count = 15;

  // QOS choice
  switch (QOS.prot_class)
    {
    case(class0):   // connectionless transport, non-sequenced
      msg.sua_prim.prot_class_pres = TRUE;
      msg.sua_prim.prot_class.pcl = prot_class_0;
      msg.sua_prim.seq_control_pres = TRUE;
      msg.sua_prim.seq_control = QOS.sequence_number;
      delivery_type = SCTP_UNORDERED_DELIVERY;
      break;
    case(class1):
      msg.sua_prim.prot_class_pres = TRUE;
      msg.sua_prim.prot_class.pcl = prot_class_1;
      msg.sua_prim.seq_control_pres = TRUE;
      msg.sua_prim.seq_control = QOS.sequence_number;
      delivery_type = SCTP_ORDERED_DELIVERY;
      break;
    default:
      return(PROTOCOL_CLASS_NOT_SPECIFIED);
      break;
    }

  if (QOS.return_msg_on_error)
    msg.sua_prim.prot_class.return_option = TRUE;
  else
    msg.sua_prim.prot_class.return_option = FALSE;
  
  // fill in the source address (=local sua address/CLG)
  switch (calling_pty_address.routing_ind) 
    {
    case (route_on_ssn):
      
      if (calling_pty_address.address_fields_present.pc == ipvx_pc_present)
	{
	  msg.sua_prim.source_addr.ip_addr_pres = TRUE;
	  msg.sua_prim.source_addr.pc_pres = FALSE;
	  if (calling_pty_address.pc.ipvx.sa.sa_family == AF_INET)
	    { 
	      msg.sua_prim.source_addr.ip_addr_type = ip_v4;
	      msg.sua_prim.source_addr.ip_addr.ipv4 = calling_pty_address.pc.ipvx.sin;
	    }
	  else if (calling_pty_address.pc.ipvx.sa.sa_family == AF_INET6)
	    {
	      msg.sua_prim.source_addr.ip_addr_type = ip_v6;
	      msg.sua_prim.source_addr.ip_addr.ipv6 = calling_pty_address.pc.ipvx.sin6;
	    }
	  else
	    cout << "error filling in CLG IP address \n";

	  msg.sua_prim.source_addr_pres = TRUE;
	  msg.sua_prim.source_addr.rout_ind = ri_route_IP_SSN;
	  msg.sua_prim.source_addr.ssn_incl = TRUE;
	  msg.sua_prim.source_addr.pc_incl = FALSE;
	  msg.sua_prim.source_addr.gt_incl = FALSE;
	  msg.sua_prim.source_addr.ssn = calling_pty_address.ssn;
	}
      else if (calling_pty_address.address_fields_present.pc == ss7_pc_present)
	{
	  msg.sua_prim.source_addr_pres = TRUE;
	  msg.sua_prim.source_addr.ip_addr_pres = FALSE;
	  msg.sua_prim.source_addr.pc_pres = TRUE;
	  msg.sua_prim.source_addr.pc = calling_pty_address.pc.ss7.ITU24.pc;
	  msg.sua_prim.source_addr.rout_ind = ri_route_PC_SSN;
	  msg.sua_prim.source_addr.ssn_incl = TRUE;
	  msg.sua_prim.source_addr.pc_incl = TRUE;
	  msg.sua_prim.source_addr.gt_incl = FALSE;
	  msg.sua_prim.source_addr.ssn = calling_pty_address.ssn;
	  cout << "SS7 PC  in CLG address \n";
	}
      else
	cout << "unsupported CLG address option\n";     
      break;
    case(route_on_name_gt):
      msg.sua_prim.source_addr.ip_addr_pres = FALSE;
      msg.sua_prim.source_addr.pc_pres = FALSE;
      msg.sua_prim.source_addr.hostname_pres = TRUE;
      msg.sua_prim.source_addr.hostname = calling_pty_address.name.HostName;
      msg.sua_prim.source_addr_pres = TRUE;
      msg.sua_prim.source_addr.rout_ind = ri_route_hostname;
      msg.sua_prim.source_addr.ssn_incl = TRUE;
      msg.sua_prim.source_addr.pc_incl = FALSE;
      msg.sua_prim.source_addr.gt_incl = TRUE;
      msg.sua_prim.source_addr.ssn = called_pty_address.ssn;
      break;
    case(route_on_name_gt_next_office):
      break;
    default:
      return(INVALID_CLG_ADDRESS);
      break;
    }
	  

  // fill in the destination address(=remote sua address/CLD)
  switch (called_pty_address.routing_ind) 
    {
    case (route_on_ssn):
      
      if (called_pty_address.address_fields_present.pc == ipvx_pc_present)
	{
	  msg.sua_prim.dest_addr.ip_addr_pres = TRUE;
	  msg.sua_prim.dest_addr.pc_pres = FALSE;
	  if (called_pty_address.pc.ipvx.sa.sa_family == AF_INET)
	    { 
	      msg.sua_prim.dest_addr.ip_addr_type = ip_v4;
	      msg.sua_prim.dest_addr.ip_addr.ipv4 = called_pty_address.pc.ipvx.sin;
	    }
	  else if (called_pty_address.pc.ipvx.sa.sa_family == AF_INET6)
	    {
	      msg.sua_prim.dest_addr.ip_addr_type = ip_v6;
	      msg.sua_prim.dest_addr.ip_addr.ipv6 = called_pty_address.pc.ipvx.sin6;
	    }
	  else
	    cout << "error filling in CLD IP address \n";
	  msg.sua_prim.dest_addr_pres = TRUE;
	  msg.sua_prim.dest_addr.rout_ind = ri_route_IP_SSN;
	  msg.sua_prim.dest_addr.ssn_incl = TRUE;
	  msg.sua_prim.dest_addr.pc_incl = FALSE;
	  msg.sua_prim.dest_addr.gt_incl = FALSE;
	  msg.sua_prim.dest_addr.ssn = called_pty_address.ssn;
	}
      else if (called_pty_address.address_fields_present.pc == ss7_pc_present)
	{
	  msg.sua_prim.dest_addr_pres = TRUE;
	  msg.sua_prim.dest_addr.ip_addr_pres = FALSE;
	  msg.sua_prim.dest_addr.pc_pres = TRUE;
	  msg.sua_prim.dest_addr.pc = called_pty_address.pc.ss7.ITU24.pc;
	  msg.sua_prim.dest_addr.rout_ind = ri_route_PC_SSN;
	  msg.sua_prim.dest_addr.ssn_incl = TRUE;
	  msg.sua_prim.dest_addr.pc_incl = TRUE;
	  msg.sua_prim.dest_addr.gt_incl = FALSE;
	  msg.sua_prim.dest_addr.ssn = called_pty_address.ssn;
	  cout << "SS7 PC  in CLD address \n";
	}
      else
	cout << "unsupported CLD address option\n";
      
      break;
    case(route_on_name_gt):
      msg.sua_prim.dest_addr.ip_addr_pres = FALSE;
      msg.sua_prim.dest_addr.hostname_pres = TRUE;
      msg.sua_prim.dest_addr.pc_pres = FALSE;
      msg.sua_prim.dest_addr.hostname = called_pty_address.name.HostName;
      msg.sua_prim.dest_addr_pres = TRUE;
      msg.sua_prim.dest_addr.rout_ind = ri_route_hostname;
      msg.sua_prim.dest_addr.ssn_incl = TRUE;
      msg.sua_prim.dest_addr.pc_incl = FALSE;
      msg.sua_prim.dest_addr.gt_incl = TRUE;
      msg.sua_prim.dest_addr.ssn = called_pty_address.ssn;
      break;
    case(route_on_name_gt_next_office):
      break;
    default:
      return(INVALID_CLD_ADDRESS);
      break;
    }

  // fill in the user data
  msg.sua_prim.data_pres = TRUE;
  string stemp(buffer,len); 
  msg.sua_prim.data_string = stemp;

  // encode the SUA unitdata message
  error = msg.sua_encode();
  string_size = msg.sua_msg.size();

  // call routing to figure out which association to take for sending
  // out the message
#ifdef DEBUG
  cout << "call routing function\n";
#endif
  sctp_assoc_id = Assoc_sua.route_msg( called_pty_address,
				       calling_pty_address
				     );
#ifdef DEBUG
  cout << "routed to SCTP assoc " << sctp_assoc_id << "\n";
#endif
  /* does association exist? */
  if (sctp_assoc_id > 0)
    {
      // send data to SCTP
      char* databuf = new char[msg.sua_msg.length()];
      msg.sua_msg.copy(databuf, msg.sua_msg.length());
      datalen = msg.sua_msg.length();

      /* yes it does, continue, no problem, send the msg */
#ifdef DEBUG
      // display byte array
      display_byte_array(databuf , msg.sua_msg.length());
#endif
      char logstring[100];
      sprintf(logstring, "SUA encoded message, ready for being send to SCTP assoc %d", sctp_assoc_id);
      event_log("sua_cl.c",logstring);
      log_byte_array("sua_cl.c", databuf,msg.sua_msg.length());
      
      result = sctp_send ( sctp_assoc_id,
			   stream_id,
			   (unsigned char *) databuf,
			   datalen,
			   SUA_PPI,
			   SCTP_USE_PRIMARY,
			   SCTP_NO_CONTEXT,
			   SCTP_INFINITE_LIFETIME,
			   delivery_type,
			   SCTP_BUNDLING_DISABLED
			   );

      error_value = result;
      delete databuf;
#ifdef DEBUG
      cout << "sua_cl.c:result sctp send = "<< result << "\n";
#endif
    }
  else if (sctp_assoc_id < 0)
    {
#ifdef DEBUG
      cout << "sua_cl.c:sending msg prohibited \n";
#endif
      error_value = -1;
    }
  else
    {
      /* NO it does NOT exist. */
      /* - Try to set up the association */
      sua_assoc_id = Assoc_sua.Dynamic_Associate ( local_sua,
						   remote_sua,
						   called_pty_address,
						   calling_pty_address,
						   1,
						   1,
						   1
					         );

      /* - save the msg till the association is setup or */
      /*   association setup fails -> drop saved msg */
      sua_msg.byte = msg.sua_msg;
      sua_msg.delivery_type = delivery_type;
      sua_msg.stream_id = stream_id;
      sua_msg.valid = true;
      msg_store.add_msg ( sua_assoc_id,
			  sua_msg
			); 

      error_value = -1;
    }
  return(error_value);
}


/***********************************************************************/
/* SUA receive a connectionless message                                */
/***********************************************************************/
/***********************************************************************/
/* sua_process_unitdata                                                */
/***********************************************************************/
short process_unitdata_msg ( int            local_sua_id,
			     unsigned int   sua_assoc_id,
			     Sua_container  &msg
			   )
{

  sua_save_str temp;

  temp.primitive = N_UNITDATA;
  temp.user_ref = 0;
  
  if (msg.sua_prim.prot_class_pres)
    {
      // QOS choice
      switch ( msg.sua_prim.prot_class.pcl)
	{
	case(prot_class_0):   // connectionless transport, non-sequenced
	  temp.QOS.prot_class = class0;
	  temp.QOS.in_sequence = false;
	  break;
	case(prot_class_1):
	  temp.QOS.prot_class = class1;
	  temp.QOS.in_sequence = true;
	  break;
	default:
	  return(PROTOCOL_CLASS_NOT_SPECIFIED);
	  break;
	}
      temp.QOS.return_msg_on_error = (msg.sua_prim.prot_class.return_option == TRUE);
    }

  temp.QOS.sequence_number = 0;
  temp.QOS.importance = msg.sua_prim.importance;
  
  // retrieve the clg(=source) address (=remote sua address)
  // which types are present in the address(ip pc, SS7 pc, GT, hostname)
  if (msg.sua_prim.source_addr.ip_addr_pres == TRUE)
    {
      temp.calling_pty_address.address_fields_present.pc = ipvx_pc_present; 
      if (msg.sua_prim.source_addr.ip_addr_type == ip_v4) {
	temp.calling_pty_address.pc.ipvx.sin =  msg.sua_prim.source_addr.ip_addr.ipv4;
	temp.calling_pty_address.pc.ipvx.sa.sa_family = AF_INET;
	temp.calling_pty_address.pc.ipvx.sin.sin_port = Assoc_sua.instance[sua_assoc_id].Dest.addrs[0].sin.sin_port;
      }
      else if (msg.sua_prim.source_addr.ip_addr_type == ip_v6) {
	temp.calling_pty_address.pc.ipvx.sin6 =  msg.sua_prim.source_addr.ip_addr.ipv6;
	temp.calling_pty_address.pc.ipvx.sa.sa_family = AF_INET6;
	temp.calling_pty_address.pc.ipvx.sin6.sin6_port = Assoc_sua.instance[sua_assoc_id].Dest.addrs[0].sin.sin_port;
      }
      else
	cout << "Unknown IP address format\n";
    }
  if (msg.sua_prim.source_addr.pc_pres == TRUE)
    {
      temp.calling_pty_address.address_fields_present.pc = ss7_pc_present;
      temp.calling_pty_address.pc.ss7.ITU24.family = ITU24bit; 
      temp.calling_pty_address.pc.ss7.ITU24.pc = msg.sua_prim.source_addr.pc;
    }
  if (msg.sua_prim.source_addr.gt_pres == TRUE)
    {
      cout << "Global Title : unsupported address format\n";
    }
  if (msg.sua_prim.source_addr.hostname_pres == TRUE)
    {
      temp.calling_pty_address.address_fields_present.name_gt = hostname_present; 
      msg.sua_prim.source_addr.hostname.copy( temp.calling_pty_address.name.HostName,
					      (msg.sua_prim.source_addr.hostname.length()+1 )
					    );
      temp.calling_pty_address.name.HostName[msg.sua_prim.source_addr.hostname.length()] = '\0';
    }
  if ((msg.sua_prim.source_addr.ip_addr_pres /= TRUE) &&
       (msg.sua_prim.source_addr.pc_pres /= TRUE) &&
      (msg.sua_prim.source_addr.gt_pres /= TRUE) &&
      (msg.sua_prim.source_addr.hostname_pres /= TRUE))
    {
      cout << "No valid address format found in msg\n";
    }

  // routing indicator
  switch (msg.sua_prim.source_addr.rout_ind)
    {
    case(ri_route_PC_SSN):
      temp.calling_pty_address.routing_ind = route_on_ssn;
      break;
    case(ri_route_IP_SSN):
      temp.calling_pty_address.routing_ind = route_on_ssn;
      break;
    case (ri_route_GT):
      temp.calling_pty_address.routing_ind = route_on_name_gt;
      break;
    case (ri_route_hostname):
      temp.calling_pty_address.routing_ind = route_on_name_gt;
      break;
    default:
      break;
    }
     
  temp.calling_pty_address.address_fields_present.ssn_port = ssn_present;
  temp.calling_pty_address.ssn = msg.sua_prim.source_addr.ssn;  
  

  // retrieve the called(=destination) address(=should be our own local addr)
  // not completely done yet
  if (msg.sua_prim.dest_addr.pc_pres == TRUE)
    {
      temp.called_pty_address.address_fields_present.pc = ss7_pc_present;
      temp.called_pty_address.pc.ss7.ITU24.family = ITU24bit; 
      temp.called_pty_address.pc.ss7.ITU24.pc = msg.sua_prim.source_addr.pc;
    }

  if (msg.sua_prim.dest_addr.hostname_pres == TRUE)
    {
      temp.called_pty_address.address_fields_present.name_gt = hostname_present; 
      msg.sua_prim.dest_addr.hostname.copy( temp.called_pty_address.name.HostName,
					    (msg.sua_prim.dest_addr.hostname.length()+1 )
					  );
      temp.called_pty_address.name.HostName[msg.sua_prim.dest_addr.hostname.length()] = '\0';
    }
  // routing indicator
  switch (msg.sua_prim.dest_addr.rout_ind)
    {
    case(ri_route_PC_SSN):
      temp.called_pty_address.routing_ind = route_on_ssn;
      break;
    case(ri_route_IP_SSN):
      temp.called_pty_address.routing_ind = route_on_ssn;
      break;
    case (ri_route_GT):
      temp.called_pty_address.routing_ind = route_on_name_gt;
      break;
    case (ri_route_hostname):
      temp.called_pty_address.routing_ind = route_on_name_gt;
      break;
    default:
      break;
    }
     
  temp.called_pty_address.address_fields_present.ssn_port = ssn_present;
  temp.called_pty_address.ssn = msg.sua_prim.dest_addr.ssn;  
  
 
  if (msg.sua_prim.data_pres == TRUE)
    temp.userdata = msg.sua_prim.data_string;
  else
    cout << "sua_cl.c: no sua user data in unitdata msg \n";
  
  // store primitive in a list(is retrieve via sua_receive_msg)
  rec_msg_pool.push_back(temp);
  
  

  /* call the application/user callBack function */
  local_sua.instance[local_sua_id].SUA_APLCallBack.ulp_ClDataIndNotif 
    ( local_sua_id,
      N_UNITDATA,
      temp.userdata.length()
    );

  return(0);
}


// end of module sua_cl.c