freebsd-dev/usr.sbin/i4b/isdnd/msghdl.c

/*
 * Copyright (c) 1997, 2002 Hellmuth Michaelis. All rights reserved.
 *
 * Redistribution and use in source and binary forms, with or without
 * modification, are permitted provided that the following conditions
 * are met:
 * 1. Redistributions of source code must retain the above copyright
 *    notice, this list of conditions and the following disclaimer.
 * 2. Redistributions in binary form must reproduce the above copyright
 *    notice, this list of conditions and the following disclaimer in the
 *    documentation and/or other materials provided with the distribution.
 *
 * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND
 * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
 * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
 * ARE DISCLAIMED.  IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE
 * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
 * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
 * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
 * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
 * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
 * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
 * SUCH DAMAGE.
 *
 *---------------------------------------------------------------------------
 *
 *	i4b daemon - message from kernel handling routines
 *	--------------------------------------------------
 *
 * $FreeBSD$
 *
 *      last edit-date: [Sun Aug 11 12:37:16 2002]
 *
 *---------------------------------------------------------------------------*/

#include "isdnd.h"

#include <sys/socket.h>
#include <net/if.h>
#include <net/if_types.h>

#if defined(__FreeBSD__)
#include <net/if_var.h>
#endif

#include <netinet/in.h>
#include <netinet/in_systm.h>
#include <netinet/in_var.h>
#include <netinet/ip.h>
#include <netinet/tcp.h>
#include <netinet/udp.h>
#include <netinet/ip_icmp.h>

/*---------------------------------------------------------------------------*
 *	handle incoming CONNECT_IND (=SETUP) message
 *---------------------------------------------------------------------------*/
void
msg_connect_ind(msg_connect_ind_t *mp)
{
	cfg_entry_t *cep;
	char *src_tela = "ERROR-src_tela";
	char *dst_tela = "ERROR-dst_tela";

#define SRC (aliasing == 0 ? mp->src_telno : src_tela)
#define DST (aliasing == 0 ? mp->dst_telno : dst_tela)

	/* Add prefixes. All preexisting alias files are useless
	   if this is on. */
	if(addprefix)
	{
		add_number_prefix(mp->src_telno, mp->src_ton);
		add_number_prefix(mp->dst_telno, mp->dst_ton);
	}

	if(aliasing)
	{
		src_tela = get_alias(mp->src_telno);
		dst_tela = get_alias(mp->dst_telno);
	}

	if((cep = find_matching_entry_incoming(mp)) == NULL)
	{
		/* log message generated in find_matching_entry_incoming() */
		sendm_connect_resp(NULL, mp->header.cdid, SETUP_RESP_DNTCRE, 0);
		handle_scrprs(mp->header.cdid, mp->scr_ind, mp->prs_ind, SRC);
		return;
	}

	if(cep->cdid != CDID_UNUSED && cep->cdid != CDID_RESERVED)
	{	
		/* 
		 * This is an incoming call on a number we just dialed out.
		 * Stop our dial-out and accept the incoming call.
		 */
		if(cep->saved_call.cdid != CDID_UNUSED &&
		   cep->saved_call.cdid != CDID_RESERVED)
		{
			int cdid;

			/* disconnect old, not new */
			
			cdid = cep->cdid;
			cep->cdid = cep->saved_call.cdid;
			sendm_disconnect_req(cep, (CAUSET_I4B << 8) | CAUSE_I4B_NORMAL);
			cep->cdid = cdid;

			/*
			 * Shortcut the state machine and mark this
			 * entry as free
			 */
/* XXX */		cep->state = ST_IDLE;	/* this is an invalid	*/
						/* transition,		*/
						/* so no next_state()	*/
			/* we have to wait here for an incoming	*/
			/* disconnect message !!! (-hm)		*/
		}
	}

	if(cep->inout == DIR_OUTONLY)
	{
		log(LL_CHD, "%05d %s incoming call from %s to %s not allowed by configuration!",
			mp->header.cdid, cep->name, SRC, DST);
		sendm_connect_resp(NULL, mp->header.cdid, SETUP_RESP_DNTCRE, 0);
		handle_scrprs(mp->header.cdid, mp->scr_ind, mp->prs_ind, SRC);
		return;
	}

	cep->charge = 0;
	cep->last_charge = 0;
		
	switch(cep->dialin_reaction)
	{
		case REACT_ACCEPT:
			log(LL_CHD, "%05d %s accepting: incoming call from %s to %s",
				mp->header.cdid, cep->name, SRC, DST);
			decr_free_channels(mp->controller);
			next_state(cep, EV_MCI);
			break;

		case REACT_REJECT:
			log(LL_CHD, "%05d %s rejecting: incoming call from %s to %s",
				mp->header.cdid, cep->name, SRC, DST);
			sendm_connect_resp(cep, mp->header.cdid, SETUP_RESP_REJECT,
				(CAUSET_I4B << 8) | CAUSE_I4B_REJECT);
			cep->cdid = CDID_UNUSED;
			break;

		case REACT_IGNORE:
			log(LL_CHD, "%05d %s ignoring: incoming call from %s to %s",
				mp->header.cdid, cep->name, SRC, DST);
			sendm_connect_resp(NULL, mp->header.cdid, SETUP_RESP_DNTCRE, 0);
			cep->cdid = CDID_UNUSED;
			break;

		case REACT_ANSWER:
			decr_free_channels(mp->controller);
			if(cep->alert)
			{
				if(mp->display)
				{
					log(LL_CHD, "%05d %s alerting: incoming call from %s to %s (%s)",
					        mp->header.cdid, cep->name, SRC, DST, mp->display);
				}
				else
				{
					log(LL_CHD, "%05d %s alerting: incoming call from %s to %s",
					        mp->header.cdid, cep->name, SRC, DST);
				}
				next_state(cep, EV_ALRT);
			}
			else
			{
				if(mp->display)
				{				
					log(LL_CHD, "%05d %s answering: incoming call from %s to %s (%s)",
						mp->header.cdid, cep->name, SRC, DST, mp->display);
				}
				else
				{
					log(LL_CHD, "%05d %s answering: incoming call from %s to %s",
						mp->header.cdid, cep->name, SRC, DST);
				}
				next_state(cep, EV_MCI);
			}
			break;

		case REACT_CALLBACK:
		
#ifdef NOTDEF
/*XXX reserve channel ??? */	decr_free_channels(mp->controller);
#endif
			if(cep->cdid == CDID_RESERVED)
			{
				log(LL_CHD, "%05d %s reserved: incoming call from %s to %s",
					mp->header.cdid, cep->name, SRC, DST);
				sendm_connect_resp(cep, mp->header.cdid, SETUP_RESP_REJECT,
#if 0
					(CAUSET_I4B << 8) | CAUSE_I4B_NORMAL);
#else
					(CAUSET_I4B << 8) | CAUSE_I4B_REJECT);
#endif					
				/* no state change */
			}
			else
			{
				sendm_connect_resp(cep, mp->header.cdid, SETUP_RESP_REJECT,
#if 0
					(CAUSET_I4B << 8) | CAUSE_I4B_NORMAL);
#else
					(CAUSET_I4B << 8) | CAUSE_I4B_REJECT);
#endif					
				if(cep->budget_callbackperiod && cep->budget_callbackncalls)
				{
					cep->budget_callback_req++;
					cep->budget_calltype = 0;
					if(cep->budget_callbackncalls_cnt == 0)
					{
						log(LL_CHD, "%05d %s no budget: call from %s to %s",
							mp->header.cdid, cep->name, SRC, DST);
						cep->cdid = CDID_UNUSED;
						cep->budget_callback_rej++;
						break;
					}
					else
					{
						cep->budget_calltype = BUDGET_TYPE_CBACK;
					}
				}

				log(LL_CHD, "%05d %s callback: incoming call from %s to %s",
					mp->header.cdid, cep->name, SRC, DST);

				cep->last_release_time = time(NULL);
				cep->cdid = CDID_RESERVED;
				next_state(cep, EV_CBRQ);
			}
			break;
			
		default:
			log(LL_WRN, "msg_connect_ind: unknown response type, tx SETUP_RESP_DNTCRE");
			sendm_connect_resp(NULL, mp->header.cdid, SETUP_RESP_DNTCRE, 0);
			break;
	}
	handle_scrprs(mp->header.cdid, mp->scr_ind, mp->prs_ind, SRC);
#undef SRC
#undef DST
}

/*---------------------------------------------------------------------------*
 *	handle incoming CONNECT_ACTIVE_IND message
 *---------------------------------------------------------------------------*/
void
msg_connect_active_ind(msg_connect_active_ind_t *mp)
{
	cfg_entry_t *cep;
	char *device;
	
	if((cep = get_cep_by_cdid(mp->header.cdid)) == NULL)
	{
		log(LL_WRN, "msg_connect_active_ind: cdid not found!");
		return;
	}

	cep->isdncontrollerused = mp->controller;
	cep->isdnchannelused = mp->channel;	
                                                                                
	cep->aoc_now = cep->connect_time = time(NULL);
	cep->aoc_last = 0;
	cep->aoc_diff = 0;
	cep->aoc_valid = AOC_INVALID;

	cep->local_disconnect = DISCON_REM;	
	
	cep->inbytes = INVALID;
	cep->outbytes = INVALID;
	cep->hangup = 0;

	device = bdrivername(cep->usrdevicename);

	/* set the B-channel to active */

	if((set_channel_busy(cep->isdncontrollerused, cep->isdnchannelused)) == ERROR)
		log(LL_ERR, "msg_connect_active_ind: set_channel_busy failed!");

	if(cep->direction == DIR_OUT)
	{
		log(LL_CHD, "%05d %s outgoing call active (ctl %d, ch %d, %s%d)",
			cep->cdid, cep->name,
			cep->isdncontrollerused, cep->isdnchannelused,
			bdrivername(cep->usrdevicename), cep->usrdeviceunit);

		if(cep->budget_calltype)
		{
			if(cep->budget_calltype == BUDGET_TYPE_CBACK)
			{
				cep->budget_callback_done++;
				cep->budget_callbackncalls_cnt--;
				DBGL(DL_BDGT, (log(LL_DBG, "%s: new cback-budget = %d",
					cep->name, cep->budget_callbackncalls_cnt)));
				if(cep->budget_callbacks_file != NULL)
					upd_callstat_file(cep->budget_callbacks_file, cep->budget_callbacksfile_rotate);
			}
			else if(cep->budget_calltype == BUDGET_TYPE_COUT)
			{
				cep->budget_callout_done++;
				cep->budget_calloutncalls_cnt--;
				DBGL(DL_BDGT, (log(LL_DBG, "%s: new cout-budget = %d",
					cep->name, cep->budget_calloutncalls_cnt)));
				if(cep->budget_callouts_file != NULL)
					upd_callstat_file(cep->budget_callouts_file, cep->budget_calloutsfile_rotate);
			}
			cep->budget_calltype = 0;
		}
	}
	else
	{
		log(LL_CHD, "%05d %s incoming call active (ctl %d, ch %d, %s%d)",
			cep->cdid, cep->name,
			cep->isdncontrollerused, cep->isdnchannelused,
			bdrivername(cep->usrdevicename), cep->usrdeviceunit);
	}
	
#ifdef USE_CURSES
	if(do_fullscreen)
		display_connect(cep);
#endif
#ifdef I4B_EXTERNAL_MONITOR
	if(do_monitor && accepted)
		monitor_evnt_connect(cep);
#endif

	if(isdntime && (mp->datetime[0] != '\0'))
	{
		log(LL_DMN, "date/time from exchange = %s", mp->datetime);
	}

	next_state(cep, EV_MCAI);
}
                                                                                
/*---------------------------------------------------------------------------*
 *	handle incoming PROCEEDING_IND message
 *---------------------------------------------------------------------------*/
void
msg_proceeding_ind(msg_proceeding_ind_t *mp)
{
	cfg_entry_t *cep;
	
	if((cep = get_cep_by_cdid(mp->header.cdid)) == NULL)
	{
		log(LL_WRN, "msg_proceeding_ind: cdid not found!");
		return;
	}

	cep->isdncontrollerused = mp->controller;
	cep->isdnchannelused = mp->channel;	
                                                                                
	/* set the B-channels active */

	if((set_channel_busy(cep->isdncontrollerused, cep->isdnchannelused)) == ERROR)
		log(LL_ERR, "msg_proceeding_ind: set_channel_busy failed!");
	
	log(LL_CHD, "%05d %s outgoing call proceeding (ctl %d, ch %d)",
			cep->cdid, cep->name,
			cep->isdncontrollerused, cep->isdnchannelused);
}
                                                                                
/*---------------------------------------------------------------------------*
 *	handle incoming ALERT_IND message
 *---------------------------------------------------------------------------*/
void
msg_alert_ind(msg_alert_ind_t *mp)
{
	cfg_entry_t *cep;
	
	if((cep = get_cep_by_cdid(mp->header.cdid)) == NULL)
	{
		log(LL_WRN, "msg_alert_ind: cdid not found!");
		return;
	}
#ifdef NOTDEF
	log(LL_CHD, "%05d %s incoming alert", cep->cdid, cep->name);
#endif
}
                                                                                
/*---------------------------------------------------------------------------*
 *	handle incoming L12STAT_IND message
 *---------------------------------------------------------------------------*/
void
msg_l12stat_ind(msg_l12stat_ind_t *ml)
{
	if((ml->controller < 0) || (ml->controller >= ncontroller))
	{
		log(LL_ERR, "msg_l12stat_ind: invalid controller number [%d]!", ml->controller);
		return;
	}

#ifdef USE_CURSES
	if(do_fullscreen)
		display_l12stat(ml->controller, ml->layer, ml->state);
#endif
#ifdef I4B_EXTERNAL_MONITOR
	if(do_monitor && accepted)
		monitor_evnt_l12stat(ml->controller, ml->layer, ml->state);
#endif

	DBGL(DL_CNST, (log(LL_DBG, "msg_l12stat_ind: unit %d, layer %d, state %d",
		ml->controller, ml->layer, ml->state)));

	if(ml->layer == LAYER_ONE)
	{
		if(ml->state == LAYER_IDLE)
			isdn_ctrl_tab[ml->controller].l2stat = ml->state;
		isdn_ctrl_tab[ml->controller].l1stat = ml->state;
	}
	else if(ml->layer == LAYER_TWO)
	{
		if(ml->state == LAYER_ACTIVE)
			isdn_ctrl_tab[ml->controller].l1stat = ml->state;
		isdn_ctrl_tab[ml->controller].l2stat = ml->state;
	}
	else
	{
		log(LL_ERR, "msg_l12stat_ind: invalid layer number [%d]!", ml->layer);
	}
}
                                                                                
/*---------------------------------------------------------------------------*
 *	handle incoming TEIASG_IND message
 *---------------------------------------------------------------------------*/
void
msg_teiasg_ind(msg_teiasg_ind_t *mt)
{
	if((mt->controller < 0) || (mt->controller >= ncontroller))
	{
		log(LL_ERR, "msg_teiasg_ind: invalid controller number [%d]!", mt->controller);
		return;
	}

#ifdef USE_CURSES
	if(do_fullscreen)
		display_tei(mt->controller, mt->tei);
#endif
#ifdef I4B_EXTERNAL_MONITOR
	if(do_monitor && accepted)
		monitor_evnt_tei(mt->controller, mt->tei);
#endif

	DBGL(DL_CNST, (log(LL_DBG, "msg_teiasg_ind: unit %d, tei = %d",
		mt->controller, mt->tei)));

	isdn_ctrl_tab[mt->controller].tei = mt->tei;
}

/*---------------------------------------------------------------------------*
 *	handle incoming PDEACT_IND message
 *---------------------------------------------------------------------------*/
void
msg_pdeact_ind(msg_pdeact_ind_t *md)
{
	int i;
	int ctrl = md->controller;
	cfg_entry_t *cep;

#ifdef USE_CURSES
	if(do_fullscreen)
	{
		display_l12stat(ctrl, LAYER_ONE, LAYER_IDLE);
		display_l12stat(ctrl, LAYER_TWO, LAYER_IDLE);
		display_tei(ctrl, -1);
	}
#endif
#ifdef I4B_EXTERNAL_MONITOR
	if(do_monitor && accepted)
	{
		monitor_evnt_l12stat(ctrl, LAYER_ONE, LAYER_IDLE);
		monitor_evnt_l12stat(ctrl, LAYER_TWO, LAYER_IDLE);		
		monitor_evnt_tei(ctrl, -1);
	}
#endif

	DBGL(DL_CNST, (log(LL_DBG, "msg_pdeact_ind: unit %d, persistent deactivation", ctrl)));

	isdn_ctrl_tab[ctrl].l1stat = LAYER_IDLE;
	isdn_ctrl_tab[ctrl].l2stat = LAYER_IDLE;
	isdn_ctrl_tab[ctrl].tei = -1;		
	
	for(i=0; i < nentries; i++)
	{
		if((cfg_entry_tab[i].cdid != CDID_UNUSED)	&&
		   (cfg_entry_tab[i].isdncontrollerused == ctrl))
		{
			cep = &cfg_entry_tab[i];
			
			if(cep->cdid == CDID_RESERVED)
			{
				cep->state = ST_IDLE;
				cep->cdid = CDID_UNUSED;
				continue;
			}

			cep->cdid = CDID_UNUSED;
			
			cep->last_release_time = time(NULL);

			SET_CAUSE_TYPE(cep->disc_cause, CAUSET_I4B);
			SET_CAUSE_VAL(cep->disc_cause, CAUSE_I4B_L1ERROR);
		
			if(cep->direction == DIR_OUT)
			{
				log(LL_CHD, "%05d %s outgoing call disconnected (local)",
					cep->cdid, cep->name);
			}
			else
			{
				log(LL_CHD, "%05d %s incoming call disconnected (local)",
					cep->cdid, cep->name);
			}
		
			log(LL_CHD, "%05d %s cause %s",
				cep->cdid, cep->name, print_i4b_cause(cep->disc_cause));
		
#ifdef USE_CURSES
			if(do_fullscreen && (cep->connect_time > 0))
				display_disconnect(cep);
#endif
#ifdef I4B_EXTERNAL_MONITOR
			if(do_monitor && accepted)
				monitor_evnt_disconnect(cep);
#endif

			if(cep->disconnectprog)
				exec_connect_prog(cep, cep->disconnectprog, 1);
		
			if(cep->connect_time > 0)
			{
				if(cep->direction == DIR_OUT)
				{
					log(LL_CHD, "%05d %s charging: %d units, %d seconds",
						cep->cdid, cep->name, cep->charge,
						(int)difftime(time(NULL), cep->connect_time));
				}
				else
				{
					log(LL_CHD, "%05d %s connected %d seconds",
						cep->cdid, cep->name,
						(int)difftime(time(NULL), cep->connect_time));
				}
		
				if((cep->inbytes != INVALID) && (cep->outbytes != INVALID))
				{
					if((cep->ioutbytes != cep->outbytes) ||
					   (cep->iinbytes != cep->inbytes))
					{
						log(LL_CHD, "%05d %s accounting: in %d, out %d (in %d, out %d)",
							cep->cdid, cep->name,
							cep->inbytes, cep->outbytes,
							cep->iinbytes, cep->ioutbytes);
					}
					else
					{
						log(LL_CHD, "%05d %s accounting: in %d, out %d",
							cep->cdid, cep->name,
							cep->inbytes, cep->outbytes);
					}
				}
			}

			if(useacctfile && (cep->connect_time > 0))
			{
				int con_secs;
				char logdatetime[41];
				struct tm *tp;
		
				con_secs = difftime(time(NULL), cep->connect_time);
					
				tp = localtime(&cep->connect_time);
				
				strftime(logdatetime,40,I4B_TIME_FORMAT,tp);
		
				if(cep->inbytes != INVALID && cep->outbytes != INVALID)
				{
					fprintf(acctfp, "%s - %s %s %d (%d) (%d/%d)\n",
						logdatetime, getlogdatetime(),
						cep->name, cep->charge, con_secs,
						cep->inbytes, cep->outbytes);
				}
				else
				{
					fprintf(acctfp, "%s - %s %s %d (%d)\n",
						logdatetime, getlogdatetime(),
						cep->name, cep->charge, con_secs);
				}
			}
		
			/* set the B-channel inactive */
		
			if((set_channel_idle(cep->isdncontrollerused, cep->isdnchannelused)) == ERROR)
				log(LL_ERR, "msg_pdeact_ind: set_channel_idle failed!");
		
			incr_free_channels(cep->isdncontrollerused);
			
			cep->connect_time = 0;

			cep->state = ST_IDLE;
		}
	}
}
                                                                                
/*---------------------------------------------------------------------------*
 *	handle incoming NEGCOMP_IND message
 *---------------------------------------------------------------------------*/
void
msg_negcomplete_ind(msg_negcomplete_ind_t *mp)
{
	cfg_entry_t *cep;

	if((cep = get_cep_by_cdid(mp->header.cdid)) == NULL)
	{
		log(LL_WRN, "msg_negcomp_ind: cdid not found");
		return;
	}

	if(cep->connectprog)
		exec_connect_prog(cep, cep->connectprog, 0);
}
                                                                                
/*---------------------------------------------------------------------------*
 *	handle incoming IFSTATE_CHANGED indication
 *---------------------------------------------------------------------------*/
void
msg_ifstatechg_ind(msg_ifstatechg_ind_t *mp)
{
	cfg_entry_t *cep;
	char *device;

	if((cep = get_cep_by_cdid(mp->header.cdid)) == NULL)
	{
		log(LL_WRN, "msg_negcomp_ind: cdid not found");
		return;
	}

	device = bdrivername(cep->usrdevicename);
	log(LL_DBG, "%s%d: switched to state %d", device, cep->usrdeviceunit, mp->state);
}

/*---------------------------------------------------------------------------*
 *	handle incoming DISCONNECT_IND message
 *---------------------------------------------------------------------------*/
void
msg_disconnect_ind(msg_disconnect_ind_t *mp)
{
	cfg_entry_t *cep;

	if((cep = get_cep_by_cdid(mp->header.cdid)) == NULL)
	{
		log(LL_WRN, "msg_disconnect_ind: cdid not found");
		return;
	}

	/* is this an aborted out-call prematurely called back? */
	if (cep->saved_call.cdid == mp->header.cdid)
	{
		DBGL(DL_CNST, (log(LL_DBG, "aborted outcall %05d disconnected",
			mp->header.cdid)));
		cep->saved_call.cdid = CDID_UNUSED;

		set_channel_idle(cep->saved_call.controller, cep->saved_call.channel);

		incr_free_channels(cep->saved_call.controller);
		return;
	}

	cep->last_release_time = time(NULL);
	cep->disc_cause = mp->cause;

	if(cep->direction == DIR_OUT)
	{
		log(LL_CHD, "%05d %s outgoing call disconnected %s",
			cep->cdid, cep->name, 
			cep->local_disconnect == DISCON_LOC ?
						"(local)" : "(remote)");
	}
	else
	{
		log(LL_CHD, "%05d %s incoming call disconnected %s", 
			cep->cdid, cep->name,
			cep->local_disconnect == DISCON_LOC ?
						"(local)" : "(remote)");
	}

	log(LL_CHD, "%05d %s cause %s",
		cep->cdid, cep->name, print_i4b_cause(mp->cause));

#ifdef USE_CURSES
	if(do_fullscreen && (cep->connect_time > 0))
		display_disconnect(cep);
#endif
#ifdef I4B_EXTERNAL_MONITOR
	if(do_monitor && accepted)
		monitor_evnt_disconnect(cep);
#endif

	if(cep->disconnectprog)
		exec_connect_prog(cep, cep->disconnectprog, 1);

	if(cep->connect_time > 0)
	{
		if(cep->direction == DIR_OUT)
		{
			log(LL_CHD, "%05d %s charging: %d units, %d seconds",
				cep->cdid, cep->name, cep->charge,
				(int)difftime(time(NULL), cep->connect_time));
		}
		else
		{
			log(LL_CHD, "%05d %s connected %d seconds",
				cep->cdid, cep->name,
				(int)difftime(time(NULL), cep->connect_time));
		}

		if((cep->inbytes != INVALID) && (cep->outbytes != INVALID))
		{
			if((cep->ioutbytes != cep->outbytes) ||
			   (cep->iinbytes != cep->inbytes))
			{
				log(LL_CHD, "%05d %s accounting: in %d, out %d (in %d, out %d)",
					cep->cdid, cep->name,
					cep->inbytes, cep->outbytes,
					cep->iinbytes, cep->ioutbytes);
			}
			else
			{
				log(LL_CHD, "%05d %s accounting: in %d, out %d",
					cep->cdid, cep->name,
					cep->inbytes, cep->outbytes);
			}
		}
	}			

	if(useacctfile && (cep->connect_time > 0))
	{
		int con_secs;
		char logdatetime[41];
		struct tm *tp;

		con_secs = difftime(time(NULL), cep->connect_time);
			
		tp = localtime(&cep->connect_time);
		
		strftime(logdatetime,40,I4B_TIME_FORMAT,tp);

		if(cep->inbytes != INVALID && cep->outbytes != INVALID)
		{
			fprintf(acctfp, "%s - %s %s %d (%d) (%d/%d)\n",
				logdatetime, getlogdatetime(),
				cep->name, cep->charge, con_secs,
				cep->inbytes, cep->outbytes);
		}
		else
		{
			fprintf(acctfp, "%s - %s %s %d (%d)\n",
				logdatetime, getlogdatetime(),
				cep->name, cep->charge, con_secs);
		}
	}

	/* set the B-channel inactive */

	set_channel_idle(cep->isdncontrollerused, cep->isdnchannelused);

	incr_free_channels(cep->isdncontrollerused);
	
	cep->connect_time = 0;			
	cep->cdid = CDID_UNUSED;

	next_state(cep, EV_MDI);
}

/*---------------------------------------------------------------------------*
 *	handle incoming DIALOUT message
 *---------------------------------------------------------------------------*/
void
msg_dialout(msg_dialout_ind_t *mp)
{
	cfg_entry_t *cep;
	
	DBGL(DL_DRVR, (log(LL_DBG, "msg_dialout: dial req from %s, unit %d", bdrivername(mp->driver), mp->driver_unit)));

	if((cep = find_by_device_for_dialout(mp->driver, mp->driver_unit)) == NULL)
	{
		DBGL(DL_DRVR, (log(LL_DBG, "msg_dialout: config entry reserved or no match")));
		return;
	}

	if(cep->inout == DIR_INONLY)
	{
		dialresponse(cep, DSTAT_INONLY);
		return;
	}

	if(cep->budget_calloutperiod && cep->budget_calloutncalls)
	{
		cep->budget_calltype = 0;
		cep->budget_callout_req++;
		
		if(cep->budget_calloutncalls_cnt == 0)
		{
			log(LL_CHD, "%05d %s no budget for calling out", 0, cep->name);
			cep->budget_callout_rej++;
			dialresponse(cep, DSTAT_TFAIL);
			return;
		}
		else
		{
			cep->budget_calltype = BUDGET_TYPE_COUT;
		}
	}

	if((cep->cdid = get_cdid()) == 0)
	{
		DBGL(DL_DRVR, (log(LL_DBG, "msg_dialout: get_cdid() returned 0!")));
		return;
	}
	
	cep->charge = 0;
	cep->last_charge = 0;
	cep->hangup = 0;

	next_state(cep, EV_MDO);	
}

/*---------------------------------------------------------------------------*
 *	handle incoming DIALOUTNUMBER message
 *---------------------------------------------------------------------------*/
void
msg_dialoutnumber(msg_dialoutnumber_ind_t *mp)
{
	cfg_entry_t *cep;
	
	DBGL(DL_DRVR, (log(LL_DBG, "msg_dialoutnumber: dial req from %s, unit %d", bdrivername(mp->driver), mp->driver_unit)));

	if((cep = find_by_device_for_dialoutnumber(mp)) == NULL)
	{
		DBGL(DL_DRVR, (log(LL_DBG, "msg_dialoutnumber: config entry reserved or no match")));
		return;
	}

	if(cep->inout == DIR_INONLY)
	{
		dialresponse(cep, DSTAT_INONLY);
		return;
	}
	
	if(cep->budget_calloutperiod && cep->budget_calloutncalls)
	{
		cep->budget_calltype = 0;
		cep->budget_callout_req++;
		
		if(cep->budget_calloutncalls_cnt == 0)
		{
			log(LL_CHD, "%05d %s no budget for calling out", 0, cep->name);
			cep->budget_callout_rej++;
			dialresponse(cep, DSTAT_TFAIL);
			return;
		}
		else
		{
			cep->budget_calltype = BUDGET_TYPE_COUT;
		}
	}

	if((cep->cdid = get_cdid()) == 0)
	{
		DBGL(DL_DRVR, (log(LL_DBG, "msg_dialoutnumber: get_cdid() returned 0!")));
		return;
	}

	cep->keypad[0] = '\0';	
	cep->charge = 0;
	cep->last_charge = 0;
	cep->hangup = 0;

	next_state(cep, EV_MDO);	
}

/*---------------------------------------------------------------------------*
 *	handle incoming KEYPAD message
 *---------------------------------------------------------------------------*/
void
msg_keypad(msg_keypad_ind_t *mp)
{
	cfg_entry_t *cep;
	
	DBGL(DL_DRVR, (log(LL_DBG, "msg_keypad: dial req from %s, unit %d", bdrivername(mp->driver), mp->driver_unit)));

	if((cep = find_by_device_for_keypad(mp->driver, mp->driver_unit, mp->cmdlen, mp->cmd)) == NULL)
	{
		DBGL(DL_DRVR, (log(LL_DBG, "msg_keypad: config entry reserved or no match")));
		return;
	}

	if(cep->inout == DIR_INONLY)
	{
		dialresponse(cep, DSTAT_INONLY);
		return;
	}
	
	if(cep->budget_calloutperiod && cep->budget_calloutncalls)
	{
		cep->budget_calltype = 0;
		cep->budget_callout_req++;
		
		if(cep->budget_calloutncalls_cnt == 0)
		{
			log(LL_CHD, "%05d %s no budget for calling out", 0, cep->name);
			cep->budget_callout_rej++;
			dialresponse(cep, DSTAT_TFAIL);
			return;
		}
		else
		{
			cep->budget_calltype = BUDGET_TYPE_COUT;
		}
	}

	if((cep->cdid = get_cdid()) == 0)
	{
		DBGL(DL_DRVR, (log(LL_DBG, "msg_keypad: get_cdid() returned 0!")));
		return;
	}
	
	cep->charge = 0;
	cep->last_charge = 0;
	cep->hangup = 0;

	next_state(cep, EV_MDO);	
}

/*---------------------------------------------------------------------------*
 *	handle incoming DRVRDISC_REQ message
 *---------------------------------------------------------------------------*/
void
msg_drvrdisc_req(msg_drvrdisc_req_t *mp)
{
	cfg_entry_t *cep;
	
	DBGL(DL_DRVR, (log(LL_DBG, "msg_drvrdisc_req: req from %s, unit %d", bdrivername(mp->driver), mp->driver_unit)));

	if((cep = get_cep_by_driver(mp->driver, mp->driver_unit)) == NULL)
	{
		DBGL(DL_DRVR, (log(LL_DBG, "msg_drvrdisc_req: config entry not found")));
		return;
	}
	next_state(cep, EV_DRQ);
}

/*---------------------------------------------------------------------------*
 *	handle incoming ACCOUNTING message
 *---------------------------------------------------------------------------*/
void
msg_accounting(msg_accounting_ind_t *mp)
{
	cfg_entry_t *cep;

	if((cep = find_active_entry_by_driver(mp->driver, mp->driver_unit)) == NULL)
	{
		log(LL_WRN, "msg_accounting: no config entry found!");	
		return;
	}

	cep->inbytes = mp->inbytes;
	cep->iinbytes = mp->iinbytes;
	cep->outbytes = mp->outbytes;
	cep->ioutbytes = mp->ioutbytes;
	cep->inbps = mp->inbps;
	cep->outbps = mp->outbps;

	if(mp->accttype == ACCT_DURING) 
	{
#ifdef USE_CURSES
		if(do_fullscreen)
			display_acct(cep);
#endif
#ifdef I4B_EXTERNAL_MONITOR
		if(do_monitor && accepted)
			monitor_evnt_acct(cep);
#endif
	}
}

/*---------------------------------------------------------------------------*
 *	handle incoming CHARGING message
 *---------------------------------------------------------------------------*/
void
msg_charging_ind(msg_charging_ind_t *mp)
{
	static char *cttab[] = {
		"invalid",
		"AOCD",
		"AOCE",
		"estimated" };
		
	cfg_entry_t *cep;

	if((cep = get_cep_by_cdid(mp->header.cdid)) == NULL)
	{
		log(LL_WRN, "msg_charging_ind: cdid not found");
		return;
	}

	if(mp->units_type < CHARGE_INVALID || mp->units_type > CHARGE_CALC)
	{ 
		log(LL_ERR, "msg_charging: units_type %d out of range!", mp->units_type);
		error_exit(1, "msg_charging: units_type %d out of range!", mp->units_type);
	}
	
	DBGL(DL_DRVR, (log(LL_DBG, "msg_charging: %d unit(s) (%s)",
			mp->units, cttab[mp->units_type])));

	cep->charge = mp->units;

	switch(mp->units_type)
	{
		case CHARGE_AOCD:
			if((cep->unitlengthsrc == ULSRC_DYN) &&
			   (cep->charge != cep->last_charge))
			{
				cep->last_charge = cep->charge;
				handle_charge(cep);
			}
			break;
			
		case CHARGE_CALC:
#ifdef USE_CURSES
		        if(do_fullscreen)
                	        display_ccharge(cep, mp->units);
#endif
#ifdef I4B_EXTERNAL_MONITOR
			if(do_monitor && accepted)
				monitor_evnt_charge(cep, mp->units, 1);
#endif
			break;
	}
}

/*---------------------------------------------------------------------------*
 *	handle incoming IDLE_TIMEOUT_IND message
 *---------------------------------------------------------------------------*/
void
msg_idle_timeout_ind(msg_idle_timeout_ind_t *mp)
{
	cfg_entry_t *cep;
	
	if((cep = get_cep_by_cdid(mp->header.cdid)) == NULL)
	{
		log(LL_WRN, "msg_idle_timeout_ind: cdid not found!");
		return;
	}

	cep->local_disconnect = DISCON_LOC;
	
	DBGL(DL_DRVR, (log(LL_DBG, "msg_idle_timeout_ind: idletimeout, kernel sent disconnect!")));
	
	check_and_kill(cep);
}

/*---------------------------------------------------------------------------*
 *    handle incoming MSG_PACKET_IND message
 *---------------------------------------------------------------------------*/
static char *
strapp(char *buf, const char *txt)
{
	while(*txt)
		*buf++ = *txt++;
	*buf = '\0';
	return buf;
}

/*---------------------------------------------------------------------------*
 *    handle incoming MSG_PACKET_IND message
 *---------------------------------------------------------------------------*/
static char *
ipapp(char *buf, unsigned long a )
{
	unsigned long ma = ntohl( a );

	buf += sprintf(buf, "%lu.%lu.%lu.%lu",
				(ma>>24)&0xFF,
				(ma>>16)&0xFF,
				(ma>>8)&0xFF,
				(ma)&0xFF);
	return buf;
}

/*---------------------------------------------------------------------------*
 *    handle incoming MSG_PACKET_IND message
 *---------------------------------------------------------------------------*/
void
msg_packet_ind(msg_packet_ind_t *mp)
{
	cfg_entry_t *cep;
	struct ip *ip;
	u_char *proto_hdr;
	char tmp[80];
	char *cptr = tmp;
	char *name = "???";
	int i;

	for(i=0; i < nentries; i++)
	{
		cep = &cfg_entry_tab[i];    /* ptr to config entry */

		if(cep->usrdevicename == mp->driver &&
			cep->usrdeviceunit == mp->driver_unit)
		{
			name = cep->name;
			break;
		}
	}

	ip = (struct ip*)mp->pktdata;
	proto_hdr = mp->pktdata + ((ip->ip_hl)<<2);

	if( ip->ip_p == IPPROTO_TCP )
	{
		struct tcphdr* tcp = (struct tcphdr*)proto_hdr;

		cptr = strapp( cptr, "TCP " );
		cptr = ipapp( cptr, ip->ip_src.s_addr );
		cptr += sprintf( cptr, ":%u -> ", ntohs( tcp->th_sport ) );
		cptr = ipapp( cptr, ip->ip_dst.s_addr );
		cptr += sprintf( cptr, ":%u", ntohs( tcp->th_dport ) );

		if(tcp->th_flags & TH_FIN)  cptr = strapp( cptr, " FIN" );
		if(tcp->th_flags & TH_SYN)  cptr = strapp( cptr, " SYN" );
		if(tcp->th_flags & TH_RST)  cptr = strapp( cptr, " RST" );
		if(tcp->th_flags & TH_PUSH) cptr = strapp( cptr, " PUSH" );
		if(tcp->th_flags & TH_ACK)  cptr = strapp( cptr, " ACK" );
		if(tcp->th_flags & TH_URG)  cptr = strapp( cptr, " URG" );
	}
	else if( ip->ip_p == IPPROTO_UDP )
	{
		struct udphdr* udp = (struct udphdr*)proto_hdr;

		cptr = strapp( cptr, "UDP " );
		cptr = ipapp( cptr, ip->ip_src.s_addr );
		cptr += sprintf( cptr, ":%u -> ", ntohs( udp->uh_sport ) );
		cptr = ipapp( cptr, ip->ip_dst.s_addr );
		cptr += sprintf( cptr, ":%u", ntohs( udp->uh_dport ) );
	}
	else if( ip->ip_p == IPPROTO_ICMP )
	{
		struct icmp* icmp = (struct icmp*)proto_hdr;

		cptr += sprintf( cptr, "ICMP:%u.%u", icmp->icmp_type, icmp->icmp_code);
		cptr = ipapp( cptr, ip->ip_src.s_addr );
		cptr = strapp( cptr, " -> " );
		cptr = ipapp( cptr, ip->ip_dst.s_addr );
	}
	else
	{
		cptr += sprintf( cptr, "PROTO=%u ", ip->ip_p);
		cptr = ipapp( cptr, ip->ip_src.s_addr);
		cptr = strapp( cptr, " -> " );
		cptr = ipapp( cptr, ip->ip_dst.s_addr);
	}

	log(LL_PKT, "%s %s %u %s",
		name, mp->direction ? "send" : "recv",
		ntohs( ip->ip_len ), tmp );
}

/*---------------------------------------------------------------------------*
 *	get a cdid from kernel
 *---------------------------------------------------------------------------*/
int
get_cdid(void)
{
	msg_cdid_req_t mcr;

	mcr.cdid = 0;
	
	if((ioctl(isdnfd, I4B_CDID_REQ, &mcr)) < 0)
	{
		log(LL_ERR, "get_cdid: ioctl I4B_CDID_REQ failed: %s", strerror(errno));
		error_exit(1, "get_cdid: ioctl I4B_CDID_REQ failed: %s", strerror(errno));
	}

	return(mcr.cdid);
}

/*---------------------------------------------------------------------------*
 *      send message "connect request" to kernel
 *---------------------------------------------------------------------------*/
int
sendm_connect_req(cfg_entry_t *cep)
{
        msg_connect_req_t mcr;
        int ret;

	cep->local_disconnect = DISCON_REM;
        
	cep->unitlength = get_current_rate(cep, 1);
	
	mcr.cdid = cep->cdid;

	mcr.controller = cep->isdncontrollerused;
	mcr.channel = cep->isdnchannelused;
	mcr.txdelay = cep->isdntxdelout;

	mcr.bprot = cep->b1protocol;
	mcr.bcap = cep->bcap;

	mcr.driver = cep->usrdevicename;
	mcr.driver_unit = cep->usrdeviceunit;

	/* setup the shorthold data */
	mcr.shorthold_data.shorthold_algorithm = cep->shorthold_algorithm;
	mcr.shorthold_data.unitlen_time = cep->unitlength;
	mcr.shorthold_data.idle_time = cep->idle_time_out;		
	mcr.shorthold_data.earlyhup_time = cep->earlyhangup;

	if(cep->unitlengthsrc == ULSRC_DYN)
		mcr.unitlen_method = ULEN_METHOD_DYNAMIC;
	else
		mcr.unitlen_method = ULEN_METHOD_STATIC;
	
	strcpy(mcr.dst_telno, cep->remote_phone_dialout.number);
	if(cep->usesubaddr)
		strcpy(mcr.dst_subaddr, cep->remote_phone_dialout.subaddr);
	strcpy(mcr.src_telno, cep->local_phone_dialout.number);
	if(cep->usesubaddr)
		strcpy(mcr.src_subaddr, cep->local_phone_dialout.subaddr);
	strcpy(mcr.keypad, cep->keypad);	

	cep->last_dial_time = time(NULL);
	cep->direction = DIR_OUT;

	DBGL(DL_CNST, (log(LL_DBG, "sendm_connect_req: ctrl = %d, chan = %d", cep->isdncontrollerused, cep->isdnchannelused)));
		
	if((ret = ioctl(isdnfd, I4B_CONNECT_REQ, &mcr)) < 0)
	{
		log(LL_ERR, "sendm_connect_req: ioctl I4B_CONNECT_REQ failed: %s", strerror(errno));
		error_exit(1, "sendm_connect_req: ioctl I4B_CONNECT_REQ failed: %s", strerror(errno));
	}

	decr_free_channels(cep->isdncontrollerused);
	
	log(LL_CHD, "%05d %s dialing out from %s to %s",
		cep->cdid,
	        cep->name,
		aliasing ? get_alias(cep->local_phone_dialout.number) : cep->local_phone_dialout.number,
		aliasing ? get_alias(cep->remote_phone_dialout.number) : cep->remote_phone_dialout.number);

	return(ret);
}

/*---------------------------------------------------------------------------*
 *	send message "connect response" to kernel
 *---------------------------------------------------------------------------*/
int
sendm_connect_resp(cfg_entry_t *cep, int cdid, int response, cause_t cause)
{
	msg_connect_resp_t mcr;
	int ret;

	mcr.cdid = cdid;

	mcr.response = response;

	if(response == SETUP_RESP_REJECT)
	{
		mcr.cause = cause;
		DBGL(DL_DRVR, (log(LL_DBG, "sendm_connect_resp: reject, cause=0x%x", cause)));
	}
	else if(response == SETUP_RESP_ACCEPT)
	{
		cep->direction = DIR_IN;

		mcr.txdelay = cep->isdntxdelin;

		mcr.bprot = cep->b1protocol;
		mcr.bcap = cep->bcap;

		mcr.driver = cep->usrdevicename;
		mcr.driver_unit = cep->usrdeviceunit;

		mcr.max_idle_time = cep->idle_time_in;

		DBGL(DL_DRVR, (log(LL_DBG, "sendm_connect_resp: accept")));
	}
	
	if((ret = ioctl(isdnfd, I4B_CONNECT_RESP, &mcr)) < 0)
	{
		log(LL_ERR, "sendm_connect_resp: ioctl I4B_CONNECT_RESP failed: %s", strerror(errno));
		error_exit(1, "sendm_connect_resp: ioctl I4B_CONNECT_RESP failed: %s", strerror(errno));
	}
	return(ret);
}

/*---------------------------------------------------------------------------*
 *	send message "disconnect request" to kernel
 *---------------------------------------------------------------------------*/
int
sendm_disconnect_req(cfg_entry_t *cep, cause_t cause)
{
	msg_discon_req_t mcr;
	int ret = 0;

	mcr.cdid = cep->cdid;

	mcr.cause = cause;

	cep->local_disconnect = DISCON_LOC;
	
	if((ret = ioctl(isdnfd, I4B_DISCONNECT_REQ, &mcr)) < 0)
	{
		log(LL_ERR, "sendm_disconnect_req: ioctl I4B_DISCONNECT_REQ failed: %s", strerror(errno));
	}
	else
	{
		DBGL(DL_DRVR, (log(LL_DBG, "sendm_disconnect_req: sent DISCONNECT_REQ")));
	}
	return(ret);
}
	
/*---------------------------------------------------------------------------*
 *	send message "alert request" to kernel
 *---------------------------------------------------------------------------*/
int
sendm_alert_req(cfg_entry_t *cep)
{
	msg_alert_req_t mar;
	int ret;

	mar.cdid = cep->cdid;
	
	if((ret = ioctl(isdnfd, I4B_ALERT_REQ, &mar)) < 0)
	{
		log(LL_ERR, "sendm_alert_req: ioctl I4B_ALERT_REQ failed: %s", strerror(errno));
		error_exit(1, "sendm_alert_req: ioctl I4B_ALERT_REQ failed: %s", strerror(errno));
	}
	else
	{
		DBGL(DL_DRVR, (log(LL_DBG, "sendm_alert_req: sent ALERT_REQ")));
	}
	return(ret);
}
	
/* EOF */