int ftdm_config_open_file(ftdm_config_t *cfg, const char *file_path)
{
FILE *f;
const char *path = NULL;
char path_buf[1024];
if (file_path[0] == '/') {
path = file_path;
} else {
snprintf(path_buf, sizeof(path_buf), "%s%s%s", g_ftdm_config_dir, FTDM_PATH_SEPARATOR, file_path);
path = path_buf;
}
if (!path) {
return 0;
}
memset(cfg, 0, sizeof(*cfg));
cfg->lockto = -1;
ftdm_log(FTDM_LOG_DEBUG, "Configuration file is %s\n", path);
f = fopen(path, "r");
if (!f) {
if (file_path[0] != '/') {
int last = -1;
char *var, *val;
snprintf(path_buf, sizeof(path_buf), "%s%sfreetdm.conf", g_ftdm_config_dir, FTDM_PATH_SEPARATOR);
path = path_buf;
if ((f = fopen(path, "r")) == 0) {
return 0;
}
cfg->file = f;
ftdm_set_string(cfg->path, path);
while (ftdm_config_next_pair(cfg, &var, &val)) {
if ((cfg->sectno != last) && !strcmp(cfg->section, file_path)) {
cfg->lockto = cfg->sectno;
return 1;
}
}
ftdm_config_close_file(cfg);
memset(cfg, 0, sizeof(*cfg));
return 0;
}
return 0;
} else {
cfg->file = f;
ftdm_set_string(cfg->path, path);
return 1;
}
}
static __inline__ ftdm_channel_t *tap_pri_get_fchan(pritap_t *pritap, passive_call_t *pcall, int channel)
{
ftdm_channel_t *fchan = NULL;
int err = 0;
int chanpos = PRI_CHANNEL(channel);
if (!chanpos || chanpos > pritap->span->chan_count) {
ftdm_log(FTDM_LOG_CRIT, "Invalid pri tap channel %d requested in span %s\n", channel, pritap->span->name);
return NULL;
}
fchan = pritap->span->channels[PRI_CHANNEL(channel)];
ftdm_channel_lock(fchan);
if (ftdm_test_flag(fchan, FTDM_CHANNEL_INUSE)) {
ftdm_log(FTDM_LOG_ERROR, "Channel %d requested in span %s is already in use!\n", channel, pritap->span->name);
err = 1;
goto done;
}
if (ftdm_channel_open_chan(fchan) != FTDM_SUCCESS) {
ftdm_log(FTDM_LOG_ERROR, "Could not open tap channel %d requested in span %s\n", channel, pritap->span->name);
err = 1;
goto done;
}
memset(&fchan->caller_data, 0, sizeof(fchan->caller_data));
ftdm_set_string(fchan->caller_data.cid_num.digits, pcall->callingnum.digits);
if (!ftdm_strlen_zero(pcall->callingname)) {
ftdm_set_string(fchan->caller_data.cid_name, pcall->callingname);
} else {
ftdm_set_string(fchan->caller_data.cid_name, pcall->callingnum.digits);
}
ftdm_set_string(fchan->caller_data.ani.digits, pcall->callingani.digits);
ftdm_set_string(fchan->caller_data.dnis.digits, pcall->callednum.digits);
done:
if (fchan) {
ftdm_channel_unlock(fchan);
}
if (err) {
return NULL;
}
return fchan;
}
FT_DECLARE(ftdm_status_t) ftdm_sched_create(ftdm_sched_t **sched, const char *name)
{
ftdm_sched_t *newsched = NULL;
ftdm_assert_return(sched != NULL, FTDM_EINVAL, "invalid pointer\n");
ftdm_assert_return(name != NULL, FTDM_EINVAL, "invalid sched name\n");
*sched = NULL;
newsched = ftdm_calloc(1, sizeof(*newsched));
if (!newsched) {
return FTDM_MEMERR;
}
if (ftdm_mutex_create(&newsched->mutex) != FTDM_SUCCESS) {
goto failed;
}
ftdm_set_string(newsched->name, name);
newsched->currid = 1;
*sched = newsched;
ftdm_log(FTDM_LOG_DEBUG, "Created schedule %s\n", name);
return FTDM_SUCCESS;
failed:
ftdm_log(FTDM_LOG_CRIT, "Failed to create schedule\n");
if (newsched) {
if (newsched->mutex) {
ftdm_mutex_destroy(&newsched->mutex);
}
ftdm_safe_free(newsched);
}
return FTDM_FAIL;
}
static ftdm_status_t ftdm_gsm_state_advance(ftdm_channel_t *ftdmchan)
{
ftdm_log_chan(ftdmchan, STATE_ADVANCE_LOG_LEVEL , "Executing state handler for %s\n", ftdm_channel_state2str(ftdmchan->state));
ftdm_channel_complete_state(ftdmchan);
switch (ftdmchan->state) {
/* starting an incoming call */
case FTDM_CHANNEL_STATE_COLLECT:
{
}
break;
/* starting an outgoing call */
case FTDM_CHANNEL_STATE_DIALING:
{
uint32_t interval = 0;
ftdm_log_chan(ftdmchan, FTDM_LOG_DEBUG, "Starting outgoing call with interval %d\n", interval);
{
ftdm_gsm_span_data_t *gsm_data;
gsm_data = ftdmchan->span->signal_data;
gsm_data->call_id = g_outbound_call_id++;
wat_con_event_t con_event;
memset(&con_event, 0, sizeof(con_event));
ftdm_set_string(con_event.called_num.digits, ftdmchan->caller_data.dnis.digits);
ftdm_log(FTDM_LOG_DEBUG, "Dialing number %s\n", con_event.called_num.digits);
wat_con_req(ftdmchan->span->span_id, gsm_data->call_id , &con_event);
SEND_STATE_SIGNAL(FTDM_SIGEVENT_DIALING);
}
}
break;
/* incoming call was offered */
case FTDM_CHANNEL_STATE_RING:
/* notify the user about the new call */
ftdm_log(FTDM_LOG_INFO, "Answering Incomming Call\r\n");
SEND_STATE_SIGNAL(FTDM_SIGEVENT_START);
break;
/* the call is making progress */
case FTDM_CHANNEL_STATE_PROGRESS:
case FTDM_CHANNEL_STATE_PROGRESS_MEDIA:
{
SEND_STATE_SIGNAL(FTDM_SIGEVENT_PROGRESS_MEDIA);
ftdm_set_state(ftdmchan, FTDM_CHANNEL_STATE_UP);
}
break;
/* the call was answered */
case FTDM_CHANNEL_STATE_UP:
{
if (ftdm_test_flag(ftdmchan, FTDM_CHANNEL_OUTBOUND)) {
SEND_STATE_SIGNAL(FTDM_SIGEVENT_UP);
}
else {
ftdm_gsm_span_data_t *gsm_data;
gsm_data = ftdmchan->span->signal_data;
wat_con_cfm(ftdmchan->span->span_id, gsm_data->call_id);
}
}
break;
/* just got hangup */
case FTDM_CHANNEL_STATE_HANGUP:
{
ftdm_gsm_span_data_t *gsm_data;
gsm_data = ftdmchan->span->signal_data;
wat_rel_req(ftdmchan->span->span_id, gsm_data->call_id);
gsm_data->call_id = 0;
SEND_STATE_SIGNAL(FTDM_SIGEVENT_STOP);
}
break;
case FTDM_CHANNEL_STATE_TERMINATING:
{
SEND_STATE_SIGNAL(FTDM_SIGEVENT_STOP);
}
break;
/* finished call for good */
case FTDM_CHANNEL_STATE_DOWN:
{
ftdm_channel_t *closed_chan;
closed_chan = ftdmchan;
ftdm_channel_close(&closed_chan);
ftdm_log_chan_msg(ftdmchan, FTDM_LOG_DEBUG, "State processing ended.\n");
SEND_STATE_SIGNAL(FTDM_SIGEVENT_STOP);
}
break;
/* INDICATE_RINGING doesn't apply to MFC/R2. maybe we could generate a tone */
case FTDM_CHANNEL_STATE_RINGING:
ftdm_log_chan_msg(ftdmchan, FTDM_LOG_DEBUG, "RINGING indicated, ignoring it as it doesn't apply to MFC/R2\n");
SEND_STATE_SIGNAL(FTDM_SIGEVENT_RINGING);
break;
/* put the r2 channel back to IDLE, close ftdmchan and set it's state as DOWN */
case FTDM_CHANNEL_STATE_RESET:
{
ftdm_log_chan_msg(ftdmchan, FTDM_LOG_DEBUG, "RESET indicated, putting the R2 channel back to IDLE\n");
ftdm_set_state(ftdmchan, FTDM_CHANNEL_STATE_DOWN);
}
break;
default:
{
ftdm_log_chan(ftdmchan, FTDM_LOG_ERROR, "Unhandled channel state change: %s\n", ftdm_channel_state2str(ftdmchan->state));
}
break;
}
return FTDM_SUCCESS;
}
FT_DECLARE(ftdm_status_t) ftdm_sched_timer(ftdm_sched_t *sched, const char *name,
int ms, ftdm_sched_callback_t callback, void *data, ftdm_timer_id_t *timerid)
{
ftdm_status_t status = FTDM_FAIL;
struct timeval now;
int rc = 0;
ftdm_timer_t *newtimer;
ftdm_assert_return(sched != NULL, FTDM_EINVAL, "sched is null!\n");
ftdm_assert_return(name != NULL, FTDM_EINVAL, "timer name is null!\n");
ftdm_assert_return(callback != NULL, FTDM_EINVAL, "sched callback is null!\n");
ftdm_assert_return(ms > 0, FTDM_EINVAL, "milliseconds must be bigger than 0!\n");
if (timerid) {
*timerid = 0;
}
rc = gettimeofday(&now, NULL);
if (rc == -1) {
ftdm_log(FTDM_LOG_ERROR, "Failed to retrieve time of day\n");
return FTDM_FAIL;
}
ftdm_mutex_lock(sched->mutex);
newtimer = ftdm_calloc(1, sizeof(*newtimer));
if (!newtimer) {
goto done;
}
newtimer->id = sched->currid;
sched->currid++;
if (!sched->currid) {
ftdm_log(FTDM_LOG_NOTICE, "Timer id wrap around for sched %s\n", sched->name);
/* we do not want currid to be zero since is an invalid id
* TODO: check that currid does not exists already in the context, it'd be insane
* though, having a timer to live all that time */
sched->currid++;
}
ftdm_set_string(newtimer->name, name);
newtimer->callback = callback;
newtimer->usrdata = data;
newtimer->time.tv_sec = now.tv_sec + (ms / 1000);
newtimer->time.tv_usec = now.tv_usec + (ms % 1000) * 1000;
if (newtimer->time.tv_usec >= FTDM_MICROSECONDS_PER_SECOND) {
newtimer->time.tv_sec += 1;
newtimer->time.tv_usec -= FTDM_MICROSECONDS_PER_SECOND;
}
if (!sched->timers) {
sched->timers = newtimer;
} else {
newtimer->next = sched->timers;
sched->timers->prev = newtimer;
sched->timers = newtimer;
}
if (timerid) {
*timerid = newtimer->id;
}
status = FTDM_SUCCESS;
done:
ftdm_mutex_unlock(sched->mutex);
#ifdef __WINDOWS__
UNREFERENCED_PARAMETER(sched);
UNREFERENCED_PARAMETER(name);
UNREFERENCED_PARAMETER(ms);
UNREFERENCED_PARAMETER(callback);
UNREFERENCED_PARAMETER(data);
UNREFERENCED_PARAMETER(timerid);
#endif
return status;
}
static void handle_pri_passive_event(pritap_t *pritap, pri_event *e)
{
passive_call_t *pcall = NULL;
passive_call_t *peerpcall = NULL;
ftdm_channel_t *fchan = NULL;
ftdm_channel_t *peerfchan = NULL;
int layer1, transcap = 0;
int crv = 0;
pritap_t *peertap = pritap->peerspan->signal_data;
switch (e->e) {
case PRI_EVENT_RING:
/* we cannot use ftdm_channel_t because we still dont know which channel will be used
* (ie, flexible channel was requested), thus, we need our own list of call references */
crv = tap_pri_get_crv(pritap->pri, e->ring.call);
ftdm_log(FTDM_LOG_DEBUG, "Ring on channel %s:%d:%d with callref %d\n",
pritap->span->name, PRI_SPAN(e->ring.channel), PRI_CHANNEL(e->ring.channel), crv);
pcall = tap_pri_get_pcall_bycrv(pritap, crv);
if (pcall) {
ftdm_log(FTDM_LOG_WARNING, "There is a call with callref %d already, ignoring duplicated ring event\n", crv);
break;
}
/* Try to get a recycled call (ie, e->ring.call is a call that the PRI stack allocated previously and then
* re-used for the next RING event because we did not destroy it fast enough) */
pcall = tap_pri_get_pcall(pritap, e->ring.call);
if (!pcall) {
/* ok so the call is really not known to us, let's get a new one */
pcall = tap_pri_get_pcall(pritap, NULL);
if (!pcall) {
ftdm_log(FTDM_LOG_ERROR, "Failed to get a free passive PRI call slot for callref %d, this is a bug!\n", crv);
break;
}
}
pcall->callref = e->ring.call;
ftdm_set_string(pcall->callingnum.digits, e->ring.callingnum);
ftdm_set_string(pcall->callingani.digits, e->ring.callingani);
ftdm_set_string(pcall->callednum.digits, e->ring.callednum);
ftdm_set_string(pcall->callingname, e->ring.callingname);
break;
case PRI_EVENT_PROGRESS:
crv = tap_pri_get_crv(pritap->pri, e->proceeding.call);
ftdm_log(FTDM_LOG_DEBUG, "Progress on channel %s:%d:%d with callref %d\n",
pritap->span->name, PRI_SPAN(e->proceeding.channel), PRI_CHANNEL(e->proceeding.channel), crv);
break;
case PRI_EVENT_PROCEEDING:
crv = tap_pri_get_crv(pritap->pri, e->proceeding.call);
/* at this point we should know the real b chan that will be used and can therefore proceed to notify about the call, but
* only if a couple of call tests are passed first */
ftdm_log(FTDM_LOG_DEBUG, "Proceeding on channel %s:%d:%d with callref %d\n",
pritap->span->name, PRI_SPAN(e->proceeding.channel), PRI_CHANNEL(e->proceeding.channel), crv);
/* check that we already know about this call in the peer PRI (which was the one receiving the PRI_EVENT_RING event) */
if (!(pcall = tap_pri_get_pcall_bycrv(peertap, crv))) {
ftdm_log(FTDM_LOG_DEBUG,
"ignoring proceeding in channel %s:%d:%d for callref %d since we don't know about it\n",
pritap->span->name, PRI_SPAN(e->proceeding.channel), PRI_CHANNEL(e->proceeding.channel), crv);
break;
}
if (pcall->proceeding) {
ftdm_log(FTDM_LOG_DEBUG, "Ignoring duplicated proceeding with callref %d\n", crv);
break;
}
pcall->proceeding = 1;
/* This call should not be known to this PRI yet ... */
if ((peerpcall = tap_pri_get_pcall_bycrv(pritap, crv))) {
ftdm_log(FTDM_LOG_ERROR,
"ignoring proceeding in channel %s:%d:%d for callref %d, dup???\n",
pritap->span->name, PRI_SPAN(e->proceeding.channel), PRI_CHANNEL(e->proceeding.channel), crv);
break;
}
/* Check if the call pointer is being recycled */
peerpcall = tap_pri_get_pcall(pritap, e->proceeding.call);
if (!peerpcall) {
peerpcall = tap_pri_get_pcall(pritap, NULL);
if (!peerpcall) {
ftdm_log(FTDM_LOG_ERROR, "Failed to get a free peer PRI passive call slot for callref %d in span %s, this is a bug!\n",
crv, pritap->span->name);
break;
}
peerpcall->callref = e->proceeding.call;
}
/* check that the layer 1 and trans capability are supported */
layer1 = pri_get_layer1(peertap->pri, pcall->callref);
transcap = pri_get_transcap(peertap->pri, pcall->callref);
if (PRI_LAYER_1_ULAW != layer1 && PRI_LAYER_1_ALAW != layer1) {
ftdm_log(FTDM_LOG_NOTICE, "Not monitoring callref %d with unsupported layer 1 format %d\n", crv, layer1);
break;
}
if (transcap != PRI_TRANS_CAP_SPEECH && transcap != PRI_TRANS_CAP_3_1K_AUDIO && transcap != PRI_TRANS_CAP_7K_AUDIO) {
ftdm_log(FTDM_LOG_NOTICE, "Not monitoring callref %d with unsupported capability %d\n", crv, transcap);
break;
}
fchan = tap_pri_get_fchan(pritap, pcall, e->proceeding.channel);
if (!fchan) {
ftdm_log(FTDM_LOG_ERROR, "Proceeding requested on odd/unavailable channel %s:%d:%d for callref %d\n",
pritap->span->name, PRI_SPAN(e->proceeding.channel), PRI_CHANNEL(e->proceeding.channel), crv);
break;
}
peerfchan = tap_pri_get_fchan(peertap, pcall, e->proceeding.channel);
if (!peerfchan) {
ftdm_log(FTDM_LOG_ERROR, "Proceeding requested on odd/unavailable channel %s:%d:%d for callref %d\n",
peertap->span->name, PRI_SPAN(e->proceeding.channel), PRI_CHANNEL(e->proceeding.channel), crv);
break;
}
pcall->fchan = fchan;
peerpcall->fchan = fchan;
ftdm_log_chan(fchan, FTDM_LOG_NOTICE, "Starting new tapped call with callref %d\n", crv);
ftdm_channel_lock(fchan);
fchan->call_data = peerfchan;
ftdm_set_state(fchan, FTDM_CHANNEL_STATE_RING);
ftdm_channel_unlock(fchan);
ftdm_channel_lock(peerfchan);
peerfchan->call_data = fchan;
ftdm_channel_unlock(peerfchan);
break;
case PRI_EVENT_ANSWER:
crv = tap_pri_get_crv(pritap->pri, e->answer.call);
ftdm_log(FTDM_LOG_DEBUG, "Answer on channel %s:%d:%d with callref %d\n",
pritap->span->name, PRI_SPAN(e->answer.channel), PRI_CHANNEL(e->answer.channel), crv);
if (!(pcall = tap_pri_get_pcall_bycrv(pritap, crv))) {
ftdm_log(FTDM_LOG_DEBUG,
"ignoring answer in channel %s:%d:%d for callref %d since we don't know about it\n",
pritap->span->name, PRI_SPAN(e->answer.channel), PRI_CHANNEL(e->proceeding.channel), crv);
break;
}
if (!pcall->fchan) {
ftdm_log(FTDM_LOG_ERROR,
"Received answer in channel %s:%d:%d for callref %d but we never got a channel\n",
pritap->span->name, PRI_SPAN(e->answer.channel), PRI_CHANNEL(e->answer.channel), crv);
break;
}
ftdm_channel_lock(pcall->fchan);
ftdm_log_chan(pcall->fchan, FTDM_LOG_NOTICE, "Tapped call was answered in state %s\n", ftdm_channel_state2str(pcall->fchan->state));
ftdm_set_pflag(pcall->fchan, PRITAP_NETWORK_ANSWER);
ftdm_set_state(pcall->fchan, FTDM_CHANNEL_STATE_UP);
ftdm_channel_unlock(pcall->fchan);
break;
case PRI_EVENT_HANGUP_REQ:
crv = tap_pri_get_crv(pritap->pri, e->hangup.call);
ftdm_log(FTDM_LOG_DEBUG, "Hangup on channel %s:%d:%d with callref %d\n",
pritap->span->name, PRI_SPAN(e->hangup.channel), PRI_CHANNEL(e->hangup.channel), crv);
if (!(pcall = tap_pri_get_pcall_bycrv(pritap, crv))) {
ftdm_log(FTDM_LOG_DEBUG,
"ignoring hangup in channel %s:%d:%d for callref %d since we don't know about it",
pritap->span->name, PRI_SPAN(e->hangup.channel), PRI_CHANNEL(e->hangup.channel), crv);
break;
}
if (pcall->fchan) {
fchan = pcall->fchan;
ftdm_channel_lock(fchan);
if (fchan->state < FTDM_CHANNEL_STATE_TERMINATING) {
ftdm_set_state(fchan, FTDM_CHANNEL_STATE_TERMINATING);
}
pcall->fchan = NULL; /* after this event we're not supposed to need to do anything with the channel anymore */
ftdm_channel_unlock(fchan);
}
tap_pri_put_pcall(pritap, e->hangup.call);
tap_pri_put_pcall(peertap, e->hangup.call);
break;
case PRI_EVENT_HANGUP_ACK:
crv = tap_pri_get_crv(pritap->pri, e->hangup.call);
ftdm_log(FTDM_LOG_DEBUG, "Hangup ack on channel %s:%d:%d with callref %d\n",
pritap->span->name, PRI_SPAN(e->hangup.channel), PRI_CHANNEL(e->hangup.channel), crv);
tap_pri_put_pcall(pritap, e->hangup.call);
tap_pri_put_pcall(peertap, e->hangup.call);
break;
default:
ftdm_log(FTDM_LOG_DEBUG, "Ignoring passive event %s on span %s\n", pri_event2str(e->gen.e), pritap->span->name);
break;
}
}
