root/src/ftmod/ftmod_libpri/ftmod_libpri.c

/* [<][>][^][v][top][bottom][index][help] */

DEFINITIONS

This source file includes following definitions.
  1. FIO_IO_UNLOAD_FUNCTION
  2. FIO_CHANNEL_GET_SIG_STATUS_FUNCTION
  3. FIO_SPAN_GET_SIG_STATUS_FUNCTION
  4. FIO_CHANNEL_OUTGOING_CALL_FUNCTION
  5. FIO_CHANNEL_REQUEST_FUNCTION
  6. s_pri_error
  7. s_pri_message
  8. parse_opts
  9. parse_debug
  10. FIO_API_FUNCTION
  11. FIO_IO_LOAD_FUNCTION
  12. FIO_SIG_LOAD_FUNCTION
  13. state_advance
  14. check_state
  15. on_info
  16. on_hangup
  17. on_answer
  18. on_proceed
  19. on_ringing
  20. on_ring
  21. process_event
  22. check_events
  23. check_flags
  24. on_restart
  25. on_dchan_up
  26. on_dchan_down
  27. on_anything
  28. on_io_fail
  29. ftdm_libpri_run
  30. ftdm_libpri_stop
  31. ftdm_libpri_start
  32. str2node
  33. str2switch
  34. str2l1
  35. str2dp
  36. FIO_SIG_CONFIGURE_FUNCTION

   1 /*
   2  * Copyright (c) 2007, Anthony Minessale II
   3  * All rights reserved.
   4  * 
   5  * Redistribution and use in source and binary forms, with or without
   6  * modification, are permitted provided that the following conditions
   7  * are met:
   8  * 
   9  * * Redistributions of source code must retain the above copyright
  10  * notice, this list of conditions and the following disclaimer.
  11  * 
  12  * * Redistributions in binary form must reproduce the above copyright
  13  * notice, this list of conditions and the following disclaimer in the
  14  * documentation and/or other materials provided with the distribution.
  15  * 
  16  * * Neither the name of the original author; nor the names of any contributors
  17  * may be used to endorse or promote products derived from this software
  18  * without specific prior written permission.
  19  * 
  20  * 
  21  * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
  22  * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
  23  * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
  24  * A PARTICULAR PURPOSE ARE DISCLAIMED.  IN NO EVENT SHALL THE COPYRIGHT OWNER
  25  * OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
  26  * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
  27  * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
  28  * PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF
  29  * LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING
  30  * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
  31  * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
  32  */
  33 
  34 #include "private/ftdm_core.h"
  35 #include "ftmod_libpri.h"
  36 
  37 /**
  38  * \brief Unloads libpri IO module
  39  * \return Success
  40  */
  41 static FIO_IO_UNLOAD_FUNCTION(ftdm_libpri_unload)
  42 {
  43         return FTDM_SUCCESS;
  44 }
  45 
  46 /**
  47  * \brief Returns the signalling status on a channel
  48  * \param ftdmchan Channel to get status on
  49  * \param status        Pointer to set signalling status
  50  * \return Success or failure
  51  */
  52 
  53 static FIO_CHANNEL_GET_SIG_STATUS_FUNCTION(isdn_get_channel_sig_status)
  54 {
  55         *status = FTDM_SIG_STATE_DOWN;
  56 
  57         ftdm_libpri_data_t *isdn_data = ftdmchan->span->signal_data;
  58         if (ftdm_test_flag(&(isdn_data->spri), LPWRAP_PRI_READY)) {
  59                 *status = FTDM_SIG_STATE_UP;
  60         }
  61         return FTDM_SUCCESS;
  62 }
  63 
  64 /**
  65  * \brief Returns the signalling status on a span
  66  * \param span Span to get status on
  67  * \param status        Pointer to set signalling status
  68  * \return Success or failure
  69  */
  70 
  71 static FIO_SPAN_GET_SIG_STATUS_FUNCTION(isdn_get_span_sig_status)
  72 {
  73         *status = FTDM_SIG_STATE_DOWN;
  74 
  75         ftdm_libpri_data_t *isdn_data = span->signal_data;
  76         if (ftdm_test_flag(&(isdn_data->spri), LPWRAP_PRI_READY)) {
  77                 *status = FTDM_SIG_STATE_UP;
  78         }
  79         return FTDM_SUCCESS;
  80 }
  81 
  82 
  83 /**
  84  * \brief Starts a libpri channel (outgoing call)
  85  * \param ftdmchan Channel to initiate call on
  86  * \return Success or failure
  87  */
  88 static FIO_CHANNEL_OUTGOING_CALL_FUNCTION(isdn_outgoing_call)
  89 {
  90         ftdm_status_t status = FTDM_SUCCESS;
  91         ftdm_set_flag(ftdmchan, FTDM_CHANNEL_OUTBOUND);
  92         ftdm_set_state_locked(ftdmchan, FTDM_CHANNEL_STATE_DIALING);
  93         return status;
  94 }
  95 
  96 /**
  97  * \brief Requests an libpri channel on a span (outgoing call)
  98  * \param span Span where to get a channel (unused)
  99  * \param chan_id Specific channel to get (0 for any) (unused)
 100  * \param direction Call direction (unused)
 101  * \param caller_data Caller information (unused)
 102  * \param ftdmchan Channel to initialise (unused)
 103  * \return Failure
 104  */
 105 static FIO_CHANNEL_REQUEST_FUNCTION(isdn_channel_request)
 106 {
 107         return FTDM_FAIL;
 108 }
 109 
 110 #ifdef WIN32
 111 /**
 112  * \brief Logs a libpri error
 113  * \param s Error string
 114  */
 115 static void s_pri_error(char *s)
 116 #else
 117 /**
 118  * \brief Logs a libpri error
 119  * \param pri libpri structure (unused)
 120  * \param s Error string
 121  */
 122 static void s_pri_error(struct pri *pri, char *s)
 123 #endif
 124 {
 125         ftdm_log(FTDM_LOG_ERROR, "%s", s);
 126 }
 127 
 128 #ifdef WIN32
 129 /**
 130  * \brief Logs a libpri message
 131  * \param s Message string
 132  */
 133 static void s_pri_message(char *s)
 134 #else
 135 /**
 136  * \brief Logs a libpri message
 137  * \param pri libpri structure (unused)
 138  * \param s Message string
 139  */
 140 static void s_pri_message(struct pri *pri, char *s)
 141 #endif
 142 {
 143                 ftdm_log(FTDM_LOG_DEBUG, "%s", s);
 144 }
 145 
 146 /**
 147  * \brief Parses an option string to flags
 148  * \param in String to parse for configuration options
 149  * \return Flags
 150  */
 151 static uint32_t parse_opts(const char *in)
 152 {
 153         uint32_t flags = 0;
 154         
 155         if (!in) {
 156                 return 0;
 157         }
 158         
 159         if (strstr(in, "suggest_channel")) {
 160                 flags |= FTMOD_LIBPRI_OPT_SUGGEST_CHANNEL;
 161         }
 162         
 163         if (strstr(in, "omit_display")) {
 164                 flags |= FTMOD_LIBPRI_OPT_OMIT_DISPLAY_IE;
 165         }
 166         
 167         if (strstr(in, "omit_redirecting_number")) {
 168                 flags |= FTMOD_LIBPRI_OPT_OMIT_REDIRECTING_NUMBER_IE;
 169         }
 170 
 171         return flags;
 172 }
 173 
 174 /**
 175  * \brief Parses a debug string to flags
 176  * \param in Debug string to parse for
 177  * \return Flags
 178  */
 179 static int parse_debug(const char *in)
 180 {
 181         int flags = 0;
 182 
 183         if (!in) {
 184                 return 0;
 185         }
 186 
 187         if (strstr(in, "q921_raw")) {
 188                 flags |= PRI_DEBUG_Q921_RAW;
 189         }
 190 
 191         if (strstr(in, "q921_dump")) {
 192                 flags |= PRI_DEBUG_Q921_DUMP;
 193         }
 194 
 195         if (strstr(in, "q921_state")) {
 196                 flags |= PRI_DEBUG_Q921_STATE;
 197         }
 198 
 199         if (strstr(in, "config")) {
 200                 flags |= PRI_DEBUG_CONFIG;
 201         }
 202 
 203         if (strstr(in, "q931_dump")) {
 204                 flags |= PRI_DEBUG_Q931_DUMP;
 205         }
 206 
 207         if (strstr(in, "q931_state")) {
 208                 flags |= PRI_DEBUG_Q931_STATE;
 209         }
 210 
 211         if (strstr(in, "q931_anomaly")) {
 212                 flags |= PRI_DEBUG_Q931_ANOMALY;
 213         }
 214 
 215         if (strstr(in, "apdu")) {
 216                 flags |= PRI_DEBUG_APDU;
 217         }
 218 
 219         if (strstr(in, "aoc")) {
 220                 flags |= PRI_DEBUG_AOC;
 221         }
 222 
 223         if (strstr(in, "all")) {
 224                 flags |= PRI_DEBUG_ALL;
 225         }
 226 
 227         if (strstr(in, "none")) {
 228                 flags = 0;
 229         }
 230 
 231         return flags;
 232 }
 233 
 234 static ftdm_io_interface_t ftdm_libpri_interface;
 235 
 236 static ftdm_status_t ftdm_libpri_start(ftdm_span_t *span);
 237 
 238 /**
 239  * \brief API function to kill or debug a libpri span
 240  * \param stream API stream handler
 241  * \param data String containing argurments
 242  * \return Flags
 243  */
 244 static FIO_API_FUNCTION(ftdm_libpri_api)
 245 {
 246         char *mycmd = NULL, *argv[10] = { 0 };
 247     int argc = 0;
 248         
 249         if (data) {
 250                 mycmd = ftdm_strdup(data);
 251                 argc = ftdm_separate_string(mycmd, ' ', argv, (sizeof(argv) / sizeof(argv[0])));
 252         }
 253 
 254         if (argc == 2) {
 255                 if (!strcasecmp(argv[0], "kill")) {
 256                         int span_id = atoi(argv[1]);
 257                         ftdm_span_t *span = NULL;
 258 
 259                         if (ftdm_span_find_by_name(argv[1], &span) == FTDM_SUCCESS || ftdm_span_find(span_id, &span) == FTDM_SUCCESS) {
 260                                 ftdm_libpri_data_t *isdn_data = span->signal_data;
 261 
 262                                 if (span->start != ftdm_libpri_start) {
 263                                         stream->write_function(stream, "%s: -ERR invalid span.\n", __FILE__);
 264                                         goto done;
 265                                 }
 266 
 267                                 ftdm_clear_flag((&isdn_data->spri), LPWRAP_PRI_READY);
 268                                 stream->write_function(stream, "%s: +OK killed.\n", __FILE__);
 269                                 goto done;
 270                         } else {
 271                                 stream->write_function(stream, "%s: -ERR invalid span.\n", __FILE__);
 272                                 goto done;
 273                         }
 274                 }
 275         }
 276 
 277         if (argc > 2) {
 278                 if (!strcasecmp(argv[0], "debug")) {
 279                         ftdm_span_t *span = NULL;
 280 
 281                         if (ftdm_span_find_by_name(argv[1], &span) == FTDM_SUCCESS) {
 282                                 ftdm_libpri_data_t *isdn_data = span->signal_data;
 283                                 if (span->start != ftdm_libpri_start) {
 284                                         stream->write_function(stream, "%s: -ERR invalid span.\n", __FILE__);
 285                                         goto done;
 286                                 }
 287 
 288                                 pri_set_debug(isdn_data->spri.pri, parse_debug(argv[2]));                               
 289                                 stream->write_function(stream, "%s: +OK debug set.\n", __FILE__);
 290                                 goto done;
 291                         } else {
 292                                 stream->write_function(stream, "%s: -ERR invalid span.\n", __FILE__);
 293                                 goto done;
 294                         }
 295                 }
 296 
 297         }
 298 
 299         stream->write_function(stream, "%s: -ERR invalid command.\n", __FILE__);
 300         
 301  done:
 302 
 303         ftdm_safe_free(mycmd);
 304 
 305         return FTDM_SUCCESS;
 306 }
 307 
 308 /**
 309  * \brief Loads libpri IO module
 310  * \param fio FreeTDM IO interface
 311  * \return Success
 312  */
 313 static FIO_IO_LOAD_FUNCTION(ftdm_libpri_io_init)
 314 {
 315         assert(fio != NULL);
 316         memset(&ftdm_libpri_interface, 0, sizeof(ftdm_libpri_interface));
 317 
 318         ftdm_libpri_interface.name = "libpri";
 319         ftdm_libpri_interface.api = ftdm_libpri_api;
 320 
 321         *fio = &ftdm_libpri_interface;
 322 
 323         return FTDM_SUCCESS;
 324 }
 325 
 326 /**
 327  * \brief Loads libpri signaling module
 328  * \param fio FreeTDM IO interface
 329  * \return Success
 330  */
 331 static FIO_SIG_LOAD_FUNCTION(ftdm_libpri_init)
 332 {
 333         pri_set_error(s_pri_error);
 334         pri_set_message(s_pri_message);
 335         return FTDM_SUCCESS;
 336 }
 337 
 338 /**
 339  * \brief libpri state map
 340  */
 341 static ftdm_state_map_t isdn_state_map = {
 342         {
 343                 {
 344                         ZSD_OUTBOUND,
 345                         ZSM_UNACCEPTABLE,
 346                         {FTDM_ANY_STATE},
 347                         {FTDM_CHANNEL_STATE_RESTART, FTDM_END}
 348                 },
 349                 {
 350                         ZSD_OUTBOUND,
 351                         ZSM_UNACCEPTABLE,
 352                         {FTDM_CHANNEL_STATE_RESTART, FTDM_END},
 353                         {FTDM_CHANNEL_STATE_DOWN, FTDM_END}
 354                 },
 355                 {
 356                         ZSD_OUTBOUND,
 357                         ZSM_UNACCEPTABLE,
 358                         {FTDM_CHANNEL_STATE_DOWN, FTDM_END},
 359                         {FTDM_CHANNEL_STATE_DIALING, FTDM_END}
 360                 },
 361                 {
 362                         ZSD_OUTBOUND,
 363                         ZSM_UNACCEPTABLE,
 364                         {FTDM_CHANNEL_STATE_DIALING, FTDM_END},
 365                         {FTDM_CHANNEL_STATE_PROGRESS_MEDIA, FTDM_CHANNEL_STATE_PROGRESS, FTDM_CHANNEL_STATE_UP, FTDM_CHANNEL_STATE_HANGUP, FTDM_CHANNEL_STATE_TERMINATING, FTDM_END}
 366                 },
 367                 {
 368                         ZSD_OUTBOUND,
 369                         ZSM_UNACCEPTABLE,
 370                         {FTDM_CHANNEL_STATE_PROGRESS_MEDIA, FTDM_CHANNEL_STATE_PROGRESS, FTDM_END},
 371                         {FTDM_CHANNEL_STATE_HANGUP, FTDM_CHANNEL_STATE_PROGRESS_MEDIA, FTDM_CHANNEL_STATE_TERMINATING, FTDM_CHANNEL_STATE_UP, FTDM_END}
 372                 },
 373                 {
 374                         ZSD_OUTBOUND,
 375                         ZSM_UNACCEPTABLE,
 376                         {FTDM_CHANNEL_STATE_HANGUP, FTDM_CHANNEL_STATE_TERMINATING, FTDM_END},
 377                         {FTDM_CHANNEL_STATE_HANGUP_COMPLETE, FTDM_CHANNEL_STATE_DOWN, FTDM_END}
 378                 },
 379                 {
 380                         ZSD_OUTBOUND,
 381                         ZSM_UNACCEPTABLE,
 382                         {FTDM_CHANNEL_STATE_HANGUP_COMPLETE, FTDM_END},
 383                         {FTDM_CHANNEL_STATE_DOWN, FTDM_END},
 384                 },
 385                 {
 386                         ZSD_OUTBOUND,
 387                         ZSM_UNACCEPTABLE,
 388                         {FTDM_CHANNEL_STATE_UP, FTDM_END},
 389                         {FTDM_CHANNEL_STATE_HANGUP, FTDM_CHANNEL_STATE_TERMINATING, FTDM_END}
 390                 },
 391 
 392                 /****************************************/
 393                 {
 394                         ZSD_INBOUND,
 395                         ZSM_UNACCEPTABLE,
 396                         {FTDM_ANY_STATE},
 397                         {FTDM_CHANNEL_STATE_RESTART, FTDM_END}
 398                 },
 399                 {
 400                         ZSD_INBOUND,
 401                         ZSM_UNACCEPTABLE,
 402                         {FTDM_CHANNEL_STATE_RESTART, FTDM_END},
 403                         {FTDM_CHANNEL_STATE_DOWN, FTDM_END}
 404                 },
 405                 {
 406                         ZSD_INBOUND,
 407                         ZSM_UNACCEPTABLE,
 408                         {FTDM_CHANNEL_STATE_DOWN, FTDM_END},
 409                         {FTDM_CHANNEL_STATE_DIALTONE, FTDM_CHANNEL_STATE_RING, FTDM_END}
 410                 },
 411                 {
 412                         ZSD_INBOUND,
 413                         ZSM_UNACCEPTABLE,
 414                         {FTDM_CHANNEL_STATE_DIALTONE, FTDM_END},
 415                         {FTDM_CHANNEL_STATE_RING, FTDM_CHANNEL_STATE_HANGUP, FTDM_CHANNEL_STATE_TERMINATING, FTDM_END}
 416                 },
 417                 {
 418                         ZSD_INBOUND,
 419                         ZSM_UNACCEPTABLE,
 420                         {FTDM_CHANNEL_STATE_RING, FTDM_END},
 421                         {FTDM_CHANNEL_STATE_HANGUP, FTDM_CHANNEL_STATE_TERMINATING, FTDM_CHANNEL_STATE_PROGRESS, FTDM_CHANNEL_STATE_PROGRESS_MEDIA, FTDM_CHANNEL_STATE_UP, FTDM_END}
 422                 },
 423                 {
 424                         ZSD_INBOUND,
 425                         ZSM_UNACCEPTABLE,
 426                         {FTDM_CHANNEL_STATE_HANGUP, FTDM_CHANNEL_STATE_TERMINATING, FTDM_END},
 427                         {FTDM_CHANNEL_STATE_HANGUP_COMPLETE, FTDM_CHANNEL_STATE_DOWN, FTDM_END},
 428                 },
 429                 {
 430                         ZSD_INBOUND,
 431                         ZSM_UNACCEPTABLE,
 432                         {FTDM_CHANNEL_STATE_HANGUP_COMPLETE, FTDM_END},
 433                         {FTDM_CHANNEL_STATE_DOWN, FTDM_END},
 434                 },
 435                 {
 436                         ZSD_INBOUND,
 437                         ZSM_UNACCEPTABLE,
 438                         {FTDM_CHANNEL_STATE_PROGRESS, FTDM_CHANNEL_STATE_PROGRESS_MEDIA, FTDM_END},
 439                         {FTDM_CHANNEL_STATE_HANGUP, FTDM_CHANNEL_STATE_TERMINATING, FTDM_CHANNEL_STATE_PROGRESS_MEDIA, 
 440                          FTDM_CHANNEL_STATE_CANCEL, FTDM_CHANNEL_STATE_UP, FTDM_END},
 441                 },
 442                 {
 443                         ZSD_INBOUND,
 444                         ZSM_UNACCEPTABLE,
 445                         {FTDM_CHANNEL_STATE_UP, FTDM_END},
 446                         {FTDM_CHANNEL_STATE_HANGUP, FTDM_CHANNEL_STATE_TERMINATING, FTDM_END},
 447                 },
 448                 
 449 
 450         }
 451 };
 452 
 453 /**
 454  * \brief Handler for channel state change
 455  * \param ftdmchan Channel to handle
 456  */
 457 static __inline__ void state_advance(ftdm_channel_t *ftdmchan)
 458 {
 459         //Q931mes_Generic *gen = (Q931mes_Generic *) ftdmchan->caller_data.raw_data;
 460         ftdm_libpri_data_t *isdn_data = ftdmchan->span->signal_data;
 461         ftdm_status_t status;
 462         ftdm_sigmsg_t sig;
 463         q931_call *call = (q931_call *) ftdmchan->call_data;
 464         
 465         
 466         ftdm_log(FTDM_LOG_DEBUG, "%d:%d STATE [%s]\n", 
 467                         ftdmchan->span_id, ftdmchan->chan_id, ftdm_channel_state2str(ftdmchan->state));
 468 
 469 
 470 #if 0
 471         if (!ftdm_test_flag(ftdmchan, FTDM_CHANNEL_OUTBOUND) && !call) {
 472                 ftdm_log(FTDM_LOG_WARNING, "NO CALL!!!!\n");
 473         }
 474 #endif
 475 
 476         
 477         memset(&sig, 0, sizeof(sig));
 478         sig.chan_id = ftdmchan->chan_id;
 479         sig.span_id = ftdmchan->span_id;
 480         sig.channel = ftdmchan;
 481 
 482 
 483         switch (ftdmchan->state) {
 484         case FTDM_CHANNEL_STATE_DOWN:
 485                 {
 486                         ftdmchan->call_data = NULL;
 487                         ftdm_channel_done(ftdmchan);                    
 488                 }
 489                 break;
 490         case FTDM_CHANNEL_STATE_PROGRESS:
 491                 {
 492                         if (ftdm_test_flag(ftdmchan, FTDM_CHANNEL_OUTBOUND)) {
 493                                 sig.event_id = FTDM_SIGEVENT_PROGRESS;
 494                                 if ((status = ftdm_span_send_signal(ftdmchan->span, &sig) != FTDM_SUCCESS)) {
 495                                         ftdm_set_state_locked(ftdmchan, FTDM_CHANNEL_STATE_HANGUP);
 496                                 }
 497                         } else if (call) {
 498                                 pri_progress(isdn_data->spri.pri, call, ftdmchan->chan_id, 1);
 499                         } else {
 500                                 ftdm_set_state_locked(ftdmchan, FTDM_CHANNEL_STATE_RESTART);
 501                         }
 502                 }
 503                 break;
 504         case FTDM_CHANNEL_STATE_PROGRESS_MEDIA:
 505                 {
 506                         if (ftdm_test_flag(ftdmchan, FTDM_CHANNEL_OUTBOUND)) {
 507                                 sig.event_id = FTDM_SIGEVENT_PROGRESS_MEDIA;
 508                                 if ((status = ftdm_span_send_signal(ftdmchan->span, &sig) != FTDM_SUCCESS)) {
 509                                         ftdm_set_state_locked(ftdmchan, FTDM_CHANNEL_STATE_HANGUP);
 510                                 }
 511                         } else if (call) {
 512                                 pri_proceeding(isdn_data->spri.pri, call, ftdmchan->chan_id, 1);
 513                         } else {
 514                                 ftdm_set_state_locked(ftdmchan, FTDM_CHANNEL_STATE_RESTART);
 515                         }
 516                 }
 517                 break;
 518         case FTDM_CHANNEL_STATE_RING:
 519                 {
 520                         if (!ftdm_test_flag(ftdmchan, FTDM_CHANNEL_OUTBOUND)) {
 521                                 if (call) {
 522                                         pri_acknowledge(isdn_data->spri.pri, call, ftdmchan->chan_id, 0);
 523                                         sig.event_id = FTDM_SIGEVENT_START;
 524                                         if ((status = ftdm_span_send_signal(ftdmchan->span, &sig) != FTDM_SUCCESS)) {
 525                                                 ftdm_set_state_locked(ftdmchan, FTDM_CHANNEL_STATE_HANGUP);
 526                                         }
 527                                 } else {
 528                                         ftdm_set_state_locked(ftdmchan, FTDM_CHANNEL_STATE_RESTART);
 529                                 }
 530                         }
 531                 }
 532                 break;
 533         case FTDM_CHANNEL_STATE_RESTART:
 534                 {
 535                         ftdmchan->caller_data.hangup_cause = FTDM_CAUSE_NORMAL_UNSPECIFIED;
 536                         sig.event_id = FTDM_SIGEVENT_RESTART;
 537                         status = ftdm_span_send_signal(ftdmchan->span, &sig);
 538                         ftdm_set_state_locked(ftdmchan, FTDM_CHANNEL_STATE_DOWN);
 539                 }
 540                 break;
 541         case FTDM_CHANNEL_STATE_UP:
 542                 {
 543                         if (ftdm_test_flag(ftdmchan, FTDM_CHANNEL_OUTBOUND)) {
 544                                 sig.event_id = FTDM_SIGEVENT_UP;
 545                                 if ((status = ftdm_span_send_signal(ftdmchan->span, &sig) != FTDM_SUCCESS)) {
 546                                         ftdm_set_state_locked(ftdmchan, FTDM_CHANNEL_STATE_HANGUP);
 547                                 }
 548                         } else if (call) {
 549                                 pri_answer(isdn_data->spri.pri, call, 0, 1);
 550                         } else {
 551                                 ftdm_set_state_locked(ftdmchan, FTDM_CHANNEL_STATE_RESTART);
 552                         }
 553                 }
 554                 break;
 555         case FTDM_CHANNEL_STATE_DIALING:
 556                 if (isdn_data) {
 557                         struct pri_sr *sr;
 558                         int dp;
 559 
 560                         if (!(call = pri_new_call(isdn_data->spri.pri))) {
 561                                 ftdm_set_state_locked(ftdmchan, FTDM_CHANNEL_STATE_RESTART);
 562                                 return;
 563                         }
 564 
 565                         
 566                         dp = ftdmchan->caller_data.dnis.type;
 567                         switch(dp) {
 568                         case FTDM_TON_NATIONAL:
 569                                 dp = PRI_NATIONAL_ISDN;
 570                                 break;
 571                         case FTDM_TON_INTERNATIONAL:
 572                                 dp = PRI_INTERNATIONAL_ISDN;
 573                                 break;
 574                         case FTDM_TON_SUBSCRIBER_NUMBER:
 575                                 dp = PRI_LOCAL_ISDN;
 576                                 break;
 577                         default:
 578                                 dp = isdn_data->dp;
 579                         }
 580 
 581                         ftdmchan->call_data = call;
 582                         sr = pri_sr_new();
 583                         assert(sr);
 584                         pri_sr_set_channel(sr, ftdmchan->chan_id, 0, 0);
 585                         pri_sr_set_bearer(sr, 0, isdn_data->l1);
 586                         pri_sr_set_called(sr, ftdmchan->caller_data.dnis.digits, dp, 1);
 587                         pri_sr_set_caller(sr, ftdmchan->caller_data.cid_num.digits, (isdn_data->opts & FTMOD_LIBPRI_OPT_OMIT_DISPLAY_IE ? NULL : ftdmchan->caller_data.cid_name),
 588                                                 dp, (ftdmchan->caller_data.pres != 1 ? PRES_ALLOWED_USER_NUMBER_PASSED_SCREEN : PRES_PROHIB_USER_NUMBER_NOT_SCREENED));
 589 
 590                         if (!(isdn_data->opts & FTMOD_LIBPRI_OPT_OMIT_REDIRECTING_NUMBER_IE)) {
 591                                 pri_sr_set_redirecting(sr, ftdmchan->caller_data.cid_num.digits, dp, PRES_ALLOWED_USER_NUMBER_PASSED_SCREEN, PRI_REDIR_UNCONDITIONAL);
 592                         }
 593 
 594                         if (pri_setup(isdn_data->spri.pri, call, sr)) {
 595                                 ftdmchan->caller_data.hangup_cause = FTDM_CAUSE_DESTINATION_OUT_OF_ORDER;                               
 596                                 ftdm_set_state_locked(ftdmchan, FTDM_CHANNEL_STATE_HANGUP);
 597                         }
 598 
 599                         pri_sr_free(sr);
 600                 }
 601 
 602                 break;
 603         case FTDM_CHANNEL_STATE_HANGUP:
 604                 {
 605                         if (call) {
 606                                 pri_hangup(isdn_data->spri.pri, call, ftdmchan->caller_data.hangup_cause);
 607                                 pri_destroycall(isdn_data->spri.pri, call);
 608                                 ftdm_set_state_locked(ftdmchan, FTDM_CHANNEL_STATE_DOWN);
 609                         } else {
 610                                 ftdm_set_state_locked(ftdmchan, FTDM_CHANNEL_STATE_RESTART);
 611                         }
 612                 }
 613                 break;
 614         case FTDM_CHANNEL_STATE_HANGUP_COMPLETE:
 615                 break;
 616         case FTDM_CHANNEL_STATE_TERMINATING:
 617                 {
 618                         sig.event_id = FTDM_SIGEVENT_STOP;
 619                         status = ftdm_span_send_signal(ftdmchan->span, &sig);
 620                         ftdm_set_state_locked(ftdmchan, FTDM_CHANNEL_STATE_DOWN);
 621 
 622                 }
 623         default:
 624                 break;
 625         }
 626 
 627 
 628 
 629         return;
 630 }
 631 
 632 /**
 633  * \brief Checks current state on a span
 634  * \param span Span to check status on
 635  */
 636 static __inline__ void check_state(ftdm_span_t *span)
 637 {
 638     if (ftdm_test_flag(span, FTDM_SPAN_STATE_CHANGE)) {
 639         uint32_t j;
 640         ftdm_clear_flag_locked(span, FTDM_SPAN_STATE_CHANGE);
 641         for(j = 1; j <= span->chan_count; j++) {
 642             if (ftdm_test_flag((span->channels[j]), FTDM_CHANNEL_STATE_CHANGE)) {
 643                                 ftdm_mutex_lock(span->channels[j]->mutex);
 644                 ftdm_clear_flag((span->channels[j]), FTDM_CHANNEL_STATE_CHANGE);
 645                 state_advance(span->channels[j]);
 646                 ftdm_channel_complete_state(span->channels[j]);
 647                                 ftdm_mutex_unlock(span->channels[j]->mutex);
 648             }
 649         }
 650     }
 651 }
 652 
 653 /**
 654  * \brief Handler for libpri information event (incoming call?)
 655  * \param spri Pri wrapper structure (libpri, span, dchan)
 656  * \param event_type Event type (unused)
 657  * \param pevent Event
 658  * \return 0
 659  */
 660 static int on_info(lpwrap_pri_t *spri, lpwrap_pri_event_t event_type, pri_event *pevent)
 661 {
 662 
 663         ftdm_log(FTDM_LOG_DEBUG, "number is: %s\n", pevent->ring.callednum);
 664         if (strlen(pevent->ring.callednum) > 3) {
 665                 ftdm_log(FTDM_LOG_DEBUG, "final number is: %s\n", pevent->ring.callednum);
 666                 pri_answer(spri->pri, pevent->ring.call, 0, 1);
 667         }
 668         return 0;
 669 }
 670 
 671 /**
 672  * \brief Handler for libpri hangup event
 673  * \param spri Pri wrapper structure (libpri, span, dchan)
 674  * \param event_type Event type (unused)
 675  * \param pevent Event
 676  * \return 0
 677  */
 678 static int on_hangup(lpwrap_pri_t *spri, lpwrap_pri_event_t event_type, pri_event *pevent)
 679 {
 680         ftdm_span_t *span = spri->private_info;
 681         ftdm_channel_t *ftdmchan = NULL;
 682         q931_call *call = NULL;
 683         ftdmchan = span->channels[pevent->hangup.channel];
 684         
 685         if (ftdmchan) {
 686                 call = (q931_call *) ftdmchan->call_data;
 687                 ftdm_log(FTDM_LOG_DEBUG, "-- Hangup on channel %d:%d\n", spri->span->span_id, pevent->hangup.channel);
 688                 ftdmchan->caller_data.hangup_cause = pevent->hangup.cause;
 689                 pri_release(spri->pri, call, 0);
 690                 pri_destroycall(spri->pri, call);
 691                 ftdm_set_state_locked(ftdmchan, FTDM_CHANNEL_STATE_TERMINATING);
 692         } else {
 693                 ftdm_log(FTDM_LOG_DEBUG, "-- Hangup on channel %d:%d %s but it's not in use?\n", spri->span->span_id,
 694                                 pevent->hangup.channel, ftdmchan->chan_id);
 695         }
 696 
 697         return 0;
 698 }
 699 
 700 /**
 701  * \brief Handler for libpri answer event
 702  * \param spri Pri wrapper structure (libpri, span, dchan)
 703  * \param event_type Event type (unused)
 704  * \param pevent Event
 705  * \return 0
 706  */
 707 static int on_answer(lpwrap_pri_t *spri, lpwrap_pri_event_t event_type, pri_event *pevent)
 708 {
 709         ftdm_span_t *span = spri->private_info;
 710         ftdm_channel_t *ftdmchan = NULL;
 711 
 712         ftdmchan = span->channels[pevent->answer.channel];
 713         
 714         if (ftdmchan) {
 715                 ftdm_log(FTDM_LOG_DEBUG, "-- Answer on channel %d:%d\n", spri->span->span_id, pevent->answer.channel);
 716                 ftdm_set_state_locked(ftdmchan, FTDM_CHANNEL_STATE_UP);
 717         } else {
 718                 ftdm_log(FTDM_LOG_DEBUG, "-- Answer on channel %d:%d %s but it's not in use?\n", spri->span->span_id, pevent->answer.channel, ftdmchan->chan_id);
 719                                 
 720         }
 721 
 722         return 0;
 723 }
 724 
 725 /**
 726  * \brief Handler for libpri proceed event
 727  * \param spri Pri wrapper structure (libpri, span, dchan)
 728  * \param event_type Event type (unused)
 729  * \param pevent Event
 730  * \return 0
 731  */
 732 static int on_proceed(lpwrap_pri_t *spri, lpwrap_pri_event_t event_type, pri_event *pevent)
 733 {
 734         ftdm_span_t *span = spri->private_info;
 735         ftdm_channel_t *ftdmchan = NULL;
 736         
 737         ftdmchan = span->channels[pevent->proceeding.channel];
 738         
 739         if (ftdmchan) {
 740                 ftdm_log(FTDM_LOG_DEBUG, "-- Proceeding on channel %d:%d\n", spri->span->span_id, pevent->proceeding.channel);
 741                 ftdm_set_state_locked(ftdmchan, FTDM_CHANNEL_STATE_PROGRESS_MEDIA);
 742         } else {
 743                 ftdm_log(FTDM_LOG_DEBUG, "-- Proceeding on channel %d:%d %s but it's not in use?\n", spri->span->span_id,
 744                                                   pevent->proceeding.channel, ftdmchan->chan_id);
 745         }
 746 
 747         return 0;
 748 }
 749 
 750 /**
 751  * \brief Handler for libpri ringing event
 752  * \param spri Pri wrapper structure (libpri, span, dchan)
 753  * \param event_type Event type (unused)
 754  * \param pevent Event
 755  * \return 0
 756  */
 757 static int on_ringing(lpwrap_pri_t *spri, lpwrap_pri_event_t event_type, pri_event *pevent)
 758 {
 759         ftdm_span_t *span = spri->private_info;
 760         ftdm_channel_t *ftdmchan = NULL;
 761 
 762         ftdmchan = span->channels[pevent->ringing.channel];
 763         
 764         if (ftdmchan) {
 765                 ftdm_log(FTDM_LOG_DEBUG, "-- Ringing on channel %d:%d\n", spri->span->span_id, pevent->ringing.channel);
 766                 /* we may get on_ringing even when we're already in FTDM_CHANNEL_STATE_PROGRESS_MEDIA */
 767                 if (ftdmchan->state == FTDM_CHANNEL_STATE_PROGRESS_MEDIA) {
 768                         /* dont try to move to STATE_PROGRESS to avoid annoying veto warning */
 769                         return 0;
 770                 }
 771                 ftdm_set_state_locked(ftdmchan, FTDM_CHANNEL_STATE_PROGRESS);
 772         } else {
 773                 ftdm_log(FTDM_LOG_DEBUG, "-- Ringing on channel %d:%d %s but it's not in use?\n", spri->span->span_id,
 774                                                   pevent->ringing.channel, ftdmchan->chan_id);
 775         }
 776 
 777         return 0;
 778 }
 779 
 780 /**
 781  * \brief Handler for libpri ring event
 782  * \param spri Pri wrapper structure (libpri, span, dchan)
 783  * \param event_type Event type (unused)
 784  * \param pevent Event
 785  * \return 0 on success
 786  */
 787 static int on_ring(lpwrap_pri_t *spri, lpwrap_pri_event_t event_type, pri_event *pevent)
 788 {
 789         ftdm_span_t *span = spri->private_info;
 790         ftdm_channel_t *ftdmchan = NULL;
 791         int ret = 0;
 792 
 793         //switch_mutex_lock(globals.channel_mutex);
 794         
 795         ftdmchan = span->channels[pevent->ring.channel];
 796         if (!ftdmchan || ftdmchan->state != FTDM_CHANNEL_STATE_DOWN || ftdm_test_flag(ftdmchan, FTDM_CHANNEL_INUSE)) {
 797                 ftdm_log(FTDM_LOG_WARNING, "--Duplicate Ring on channel %d:%d (ignored)\n", spri->span->span_id, pevent->ring.channel);
 798                 ret = 0;
 799                 goto done;
 800         }
 801 
 802         if (ftdm_channel_open_chan(ftdmchan) != FTDM_SUCCESS) {
 803                 ftdm_log(FTDM_LOG_WARNING, "--Failure opening channel %d:%d (ignored)\n", spri->span->span_id, pevent->ring.channel);
 804                 ret = 0;
 805                 goto done;
 806         }
 807         
 808 
 809         ftdm_log(FTDM_LOG_NOTICE, "-- Ring on channel %d:%d (from %s to %s)\n", spri->span->span_id, pevent->ring.channel,
 810                                           pevent->ring.callingnum, pevent->ring.callednum);
 811         
 812         memset(&ftdmchan->caller_data, 0, sizeof(ftdmchan->caller_data));
 813         
 814         ftdm_set_string(ftdmchan->caller_data.cid_num.digits, (char *)pevent->ring.callingnum);
 815         if (!ftdm_strlen_zero((char *)pevent->ring.callingname)) {
 816                 ftdm_set_string(ftdmchan->caller_data.cid_name, (char *)pevent->ring.callingname);
 817         } else {
 818                 ftdm_set_string(ftdmchan->caller_data.cid_name, (char *)pevent->ring.callingnum);
 819         }
 820         ftdm_set_string(ftdmchan->caller_data.ani.digits, (char *)pevent->ring.callingani);
 821         ftdm_set_string(ftdmchan->caller_data.dnis.digits, (char *)pevent->ring.callednum);
 822         
 823         if (pevent->ring.ani2 >= 0) {
 824                 snprintf(ftdmchan->caller_data.aniII, 5, "%.2d", pevent->ring.ani2);
 825         }
 826         
 827         // scary to trust this pointer, you'd think they would give you a copy of the call data so you own it......
 828         ftdmchan->call_data = pevent->ring.call;
 829         
 830         ftdm_set_state_locked(ftdmchan, FTDM_CHANNEL_STATE_RING);
 831         
 832  done:
 833         //switch_mutex_unlock(globals.channel_mutex);
 834 
 835         return ret;
 836 }
 837 
 838 /**
 839  * \brief Processes freetdm event
 840  * \param span Span on which the event was fired
 841  * \param event Event to be treated
 842  * \return Success or failure
 843  */
 844 static __inline__ ftdm_status_t process_event(ftdm_span_t *span, ftdm_event_t *event)
 845 {
 846         ftdm_alarm_flag_t alarmbits;
 847         ftdm_log(FTDM_LOG_DEBUG, "EVENT [%s][%d][%d:%d] STATE [%s]\n", 
 848                         ftdm_oob_event2str(event->enum_id), event->enum_id, event->channel->span_id, event->channel->chan_id, ftdm_channel_state2str(event->channel->state));
 849 
 850         switch(event->enum_id) {
 851         case FTDM_OOB_ALARM_TRAP:
 852                 {
 853                         if (event->channel->state != FTDM_CHANNEL_STATE_DOWN) {
 854                                 if (event->channel->type == FTDM_CHAN_TYPE_B) {
 855                                         ftdm_set_state_locked(event->channel, FTDM_CHANNEL_STATE_RESTART);
 856                                 }
 857                         }
 858                         
 859 
 860                         ftdm_set_flag(event->channel, FTDM_CHANNEL_SUSPENDED);
 861 
 862                         
 863                         ftdm_channel_get_alarms(event->channel, &alarmbits);
 864                         ftdm_log(FTDM_LOG_WARNING, "channel %d:%d (%d:%d) has alarms! [%s]\n", 
 865                                         event->channel->span_id, event->channel->chan_id, 
 866                                         event->channel->physical_span_id, event->channel->physical_chan_id, 
 867                                         event->channel->last_error);
 868                 }
 869                 break;
 870         case FTDM_OOB_ALARM_CLEAR:
 871                 {
 872                         
 873                         ftdm_log(FTDM_LOG_WARNING, "channel %d:%d (%d:%d) alarms Cleared!\n", event->channel->span_id, event->channel->chan_id,
 874                                         event->channel->physical_span_id, event->channel->physical_chan_id);
 875 
 876                         ftdm_clear_flag(event->channel, FTDM_CHANNEL_SUSPENDED);
 877                         ftdm_channel_get_alarms(event->channel, &alarmbits);
 878                 }
 879                 break;
 880         }
 881 
 882         return FTDM_SUCCESS;
 883 }
 884 
 885 /**
 886  * \brief Checks for events on a span
 887  * \param span Span to check for events
 888  */
 889 static __inline__ void check_events(ftdm_span_t *span)
 890 {
 891         ftdm_status_t status;
 892 
 893         status = ftdm_span_poll_event(span, 5);
 894 
 895         switch(status) {
 896         case FTDM_SUCCESS:
 897                 {
 898                         ftdm_event_t *event;
 899                         while (ftdm_span_next_event(span, &event) == FTDM_SUCCESS) {
 900                                 if (event->enum_id == FTDM_OOB_NOOP) {
 901                                         continue;
 902                                 }
 903                                 if (process_event(span, event) != FTDM_SUCCESS) {
 904                                         break;
 905                                 }
 906                         }
 907                 }
 908                 break;
 909         case FTDM_FAIL:
 910                 {
 911                         ftdm_log(FTDM_LOG_DEBUG, "Event Failure! %d\n", ftdm_running());
 912                         ftdm_sleep(2000);
 913                 }
 914                 break;
 915         default:
 916                 break;
 917         }
 918 }
 919 
 920 /**
 921  * \brief Checks flags on a pri span
 922  * \param spri Pri wrapper structure (libpri, span, dchan)
 923  * \return 0 on success, -1 on error
 924  */
 925 static int check_flags(lpwrap_pri_t *spri)
 926 {
 927         ftdm_span_t *span = spri->private_info;
 928 
 929         if (!ftdm_running() || ftdm_test_flag(span, FTDM_SPAN_STOP_THREAD)) {
 930                 return -1;
 931         }
 932 
 933         check_state(span);
 934         check_events(span);
 935 
 936 
 937         return 0;
 938 }
 939 
 940 /**
 941  * \brief Handler for libpri restart event
 942  * \param spri Pri wrapper structure (libpri, span, dchan)
 943  * \param event_type Event type (unused)
 944  * \param pevent Event
 945  * \return 0
 946  */
 947 static int on_restart(lpwrap_pri_t *spri, lpwrap_pri_event_t event_type, pri_event *pevent)
 948 {
 949         ftdm_span_t *span = spri->private_info;
 950         ftdm_channel_t *ftdmchan;
 951 
 952         ftdm_log(FTDM_LOG_NOTICE, "-- Restarting %d:%d\n", spri->span->span_id, pevent->restart.channel);
 953         
 954         spri->dchan->state = FTDM_CHANNEL_STATE_UP;
 955         ftdmchan = span->channels[pevent->restart.channel];
 956 
 957         if (!ftdmchan) {
 958                 return 0;
 959         }
 960 
 961         if (pevent->restart.channel < 1) {
 962                 ftdm_set_state_all(ftdmchan->span, FTDM_CHANNEL_STATE_RESTART);
 963         } else {
 964                 ftdm_set_state_locked(ftdmchan, FTDM_CHANNEL_STATE_RESTART);
 965         }
 966 
 967         return 0;
 968 }
 969 
 970 /**
 971  * \brief Handler for libpri dchan up event
 972  * \param spri Pri wrapper structure (libpri, span, dchan)
 973  * \param event_type Event type (unused)
 974  * \param pevent Event
 975  * \return 0
 976  */
 977 static int on_dchan_up(lpwrap_pri_t *spri, lpwrap_pri_event_t event_type, pri_event *pevent)
 978 {
 979         if (!ftdm_test_flag(spri, LPWRAP_PRI_READY)) {
 980                 ftdm_signaling_status_t status = FTDM_SIG_STATE_UP;
 981                 ftdm_channel_t *ftdmchan = NULL;
 982                 ftdm_sigmsg_t sig;
 983                 int i;
 984                 ftdm_log(FTDM_LOG_INFO, "Span %d D-Chan UP!\n", spri->span->span_id);
 985                 ftdm_set_flag(spri, LPWRAP_PRI_READY);
 986                 ftdm_set_state_all(spri->span, FTDM_CHANNEL_STATE_RESTART);
 987 
 988                 ftdm_log(FTDM_LOG_NOTICE, "%d:Signaling link status changed to %s\n", spri->span->span_id, ftdm_signaling_status2str(status));
 989                 for(i=1; i <= spri->span->chan_count; i++) {
 990                         ftdmchan = spri->span->channels[i];
 991                         memset(&sig, 0, sizeof(sig));
 992                         sig.chan_id = ftdmchan->chan_id;
 993                         sig.span_id = ftdmchan->span_id;
 994                         sig.channel = ftdmchan;
 995                         sig.event_id = FTDM_SIGEVENT_SIGSTATUS_CHANGED;
 996                         sig.raw_data = &status;
 997                         ftdm_span_send_signal(spri->span, &sig);
 998                 }
 999         }
1000         return 0;
1001 }
1002 
1003 /**
1004  * \brief Handler for libpri dchan down event
1005  * \param spri Pri wrapper structure (libpri, span, dchan)
1006  * \param event_type Event type (unused)
1007  * \param pevent Event
1008  * \return 0
1009  */
1010 static int on_dchan_down(lpwrap_pri_t *spri, lpwrap_pri_event_t event_type, pri_event *pevent)
1011 {       
1012         if (ftdm_test_flag(spri, LPWRAP_PRI_READY)) {
1013                 ftdm_signaling_status_t status = FTDM_SIG_STATE_DOWN;
1014                 ftdm_channel_t *ftdmchan = NULL;
1015                 ftdm_sigmsg_t sig;
1016                 int i;
1017                 ftdm_log(FTDM_LOG_INFO, "Span %d D-Chan DOWN!\n", spri->span->span_id);
1018                 ftdm_clear_flag(spri, LPWRAP_PRI_READY);
1019                 ftdm_set_state_all(spri->span, FTDM_CHANNEL_STATE_RESTART);
1020 
1021 
1022                 ftdm_log(FTDM_LOG_NOTICE, "%d:Signaling link status changed to %s\n", spri->span->span_id, ftdm_signaling_status2str(status));
1023                 for(i=1; i <= spri->span->chan_count; i++) {
1024                         ftdmchan = spri->span->channels[i];
1025                         memset(&sig, 0, sizeof(sig));
1026                         sig.chan_id = ftdmchan->chan_id;
1027                         sig.span_id = ftdmchan->span_id;
1028                         sig.channel = ftdmchan;
1029                         sig.event_id = FTDM_SIGEVENT_SIGSTATUS_CHANGED;
1030                         sig.raw_data = &status;
1031                         ftdm_span_send_signal(spri->span, &sig);
1032                 }
1033         }
1034 
1035         return 0;
1036 }
1037 
1038 /**
1039  * \brief Handler for any libpri event
1040  * \param spri Pri wrapper structure (libpri, span, dchan)
1041  * \param event_type Event type (unused)
1042  * \param pevent Event
1043  * \return 0
1044  */
1045 static int on_anything(lpwrap_pri_t *spri, lpwrap_pri_event_t event_type, pri_event *pevent)
1046 {
1047 
1048         ftdm_log(FTDM_LOG_DEBUG, "Caught Event span %d %u (%s)\n", spri->span->span_id, event_type, lpwrap_pri_event_str(event_type));
1049         return 0;
1050 }
1051 
1052 /**
1053  * \brief Handler for libpri io fail event
1054  * \param spri Pri wrapper structure (libpri, span, dchan)
1055  * \param event_type Event type (unused)
1056  * \param pevent Event
1057  * \return 0
1058  */
1059 static int on_io_fail(lpwrap_pri_t *spri, lpwrap_pri_event_t event_type, pri_event *pevent)
1060 {
1061 
1062         ftdm_log(FTDM_LOG_DEBUG, "Caught Event span %d %u (%s)\n", spri->span->span_id, event_type, lpwrap_pri_event_str(event_type));
1063         return 0;
1064 }
1065 
1066 /**
1067  * \brief Main thread function for libpri span (monitor)
1068  * \param me Current thread
1069  * \param obj Span to run in this thread
1070  */
1071 static void *ftdm_libpri_run(ftdm_thread_t *me, void *obj)
1072 {
1073         ftdm_span_t *span = (ftdm_span_t *) obj;
1074         ftdm_libpri_data_t *isdn_data = span->signal_data;
1075         int i, x = 0;
1076         int down = 0;
1077         int got_d = 0;
1078         
1079         ftdm_set_flag(span, FTDM_SPAN_IN_THREAD);
1080         
1081         while(ftdm_running() && !ftdm_test_flag(span, FTDM_SPAN_STOP_THREAD)) {
1082                 if (!got_d) {
1083                         for(i = 1; i <= span->chan_count; i++) {
1084                                 if (span->channels[i]->type == FTDM_CHAN_TYPE_DQ921) {
1085                                         if (ftdm_channel_open(span->span_id, i, &isdn_data->dchan) == FTDM_SUCCESS) {
1086                                                 ftdm_log(FTDM_LOG_DEBUG, "opening d-channel #%d %d:%d\n", x, isdn_data->dchan->span_id, isdn_data->dchan->chan_id);
1087                                                 got_d = 1;
1088                                                 x++;
1089                                                 break;
1090                                         } else {
1091                                             ftdm_log(FTDM_LOG_ERROR, "failed to open d-channel #%d %d:%d\n", x, span->channels[i]->span_id, span->channels[i]->chan_id);
1092                                         }
1093                                 }
1094                         }
1095                 }
1096 
1097                 if (!got_d) {
1098                         ftdm_log(FTDM_LOG_ERROR, "Failed to get a D-channel in span %d\n", span->span_id);
1099                         break;
1100                 }
1101                 
1102                 
1103                 if (lpwrap_init_pri(&isdn_data->spri,
1104                                                                   span,  // span
1105                                                                   isdn_data->dchan, // dchan
1106                                                                   isdn_data->pswitch,
1107                                                                   isdn_data->node,
1108                                                                   isdn_data->debug) < 0) {
1109                         snprintf(span->last_error, sizeof(span->last_error), "PRI init FAIL!");
1110                 } else {
1111 
1112                         LPWRAP_MAP_PRI_EVENT(isdn_data->spri, LPWRAP_PRI_EVENT_ANY, on_anything);
1113                         LPWRAP_MAP_PRI_EVENT(isdn_data->spri, LPWRAP_PRI_EVENT_RING, on_ring);
1114                         LPWRAP_MAP_PRI_EVENT(isdn_data->spri, LPWRAP_PRI_EVENT_RINGING, on_ringing);
1115                         //LPWRAP_MAP_PRI_EVENT(isdn_data->spri, LPWRAP_PRI_EVENT_SETUP_ACK, on_proceed);
1116                         LPWRAP_MAP_PRI_EVENT(isdn_data->spri, LPWRAP_PRI_EVENT_PROCEEDING, on_proceed);
1117                         LPWRAP_MAP_PRI_EVENT(isdn_data->spri, LPWRAP_PRI_EVENT_ANSWER, on_answer);
1118                         LPWRAP_MAP_PRI_EVENT(isdn_data->spri, LPWRAP_PRI_EVENT_DCHAN_UP, on_dchan_up);
1119                         LPWRAP_MAP_PRI_EVENT(isdn_data->spri, LPWRAP_PRI_EVENT_DCHAN_DOWN, on_dchan_down);
1120                         LPWRAP_MAP_PRI_EVENT(isdn_data->spri, LPWRAP_PRI_EVENT_HANGUP_REQ, on_hangup);
1121                         LPWRAP_MAP_PRI_EVENT(isdn_data->spri, LPWRAP_PRI_EVENT_HANGUP, on_hangup);
1122                         LPWRAP_MAP_PRI_EVENT(isdn_data->spri, LPWRAP_PRI_EVENT_INFO_RECEIVED, on_info);
1123                         LPWRAP_MAP_PRI_EVENT(isdn_data->spri, LPWRAP_PRI_EVENT_RESTART, on_restart);
1124                         LPWRAP_MAP_PRI_EVENT(isdn_data->spri, LPWRAP_PRI_EVENT_IO_FAIL, on_io_fail);
1125 
1126                         if (down) {
1127                                 ftdm_log(FTDM_LOG_INFO, "PRI back up on span %d\n", isdn_data->spri.span->span_id);
1128                                 ftdm_set_state_all(span, FTDM_CHANNEL_STATE_RESTART);
1129                                 down = 0;
1130                         }
1131 
1132                         isdn_data->spri.on_loop = check_flags;
1133                         isdn_data->spri.private_info = span;
1134                         lpwrap_run_pri(&isdn_data->spri);
1135 
1136                 }
1137 
1138                 if (!ftdm_running() || ftdm_test_flag(span, FTDM_SPAN_STOP_THREAD)) {
1139                         break;
1140                 }
1141 
1142                 ftdm_log(FTDM_LOG_CRIT, "PRI down on span %d\n", isdn_data->spri.span->span_id);
1143                 if (isdn_data->spri.dchan) {
1144                         isdn_data->spri.dchan->state = FTDM_CHANNEL_STATE_DOWN;
1145                 }
1146 
1147                 if (!down) {
1148                         ftdm_set_state_all(span, FTDM_CHANNEL_STATE_RESTART);
1149                         check_state(span);
1150                 }
1151 
1152                 check_state(span);
1153                 check_events(span);
1154 
1155                 down++;
1156                 ftdm_sleep(5000);
1157         }
1158 
1159         ftdm_log(FTDM_LOG_DEBUG, "PRI thread ended on span %d\n", span->span_id);
1160 
1161         ftdm_clear_flag(span, FTDM_SPAN_IN_THREAD);
1162         ftdm_clear_flag(isdn_data, FTMOD_LIBPRI_RUNNING);
1163 
1164         return NULL;
1165 }
1166 
1167 /**
1168  * \brief Stops a libpri span
1169  * \param span Span to halt
1170  * \return Success
1171  *
1172  * Sets a stop flag and waits for the thread to end
1173  */
1174 static ftdm_status_t ftdm_libpri_stop(ftdm_span_t *span)
1175 {
1176         ftdm_libpri_data_t *isdn_data = span->signal_data;
1177 
1178         if (!ftdm_test_flag(isdn_data, FTMOD_LIBPRI_RUNNING)) {
1179                 return FTDM_FAIL;
1180         }
1181 
1182         ftdm_set_state_all(span, FTDM_CHANNEL_STATE_RESTART);
1183         check_state(span);
1184         ftdm_set_flag(span, FTDM_SPAN_STOP_THREAD);
1185         while(ftdm_test_flag(span, FTDM_SPAN_IN_THREAD)) {
1186                 ftdm_sleep(100);
1187         }
1188         check_state(span);
1189 
1190         return FTDM_SUCCESS;
1191 }
1192 
1193 /**
1194  * \brief Starts a libpri span
1195  * \param span Span to halt
1196  * \return Success or failure
1197  *
1198  * Launches a thread to monitor the span
1199  */
1200 static ftdm_status_t ftdm_libpri_start(ftdm_span_t *span)
1201 {
1202         ftdm_status_t ret;
1203         ftdm_libpri_data_t *isdn_data = span->signal_data;
1204 
1205         if (ftdm_test_flag(isdn_data, FTMOD_LIBPRI_RUNNING)) {
1206                 return FTDM_FAIL;
1207         }
1208 
1209         ftdm_clear_flag(span, FTDM_SPAN_STOP_THREAD);
1210         ftdm_clear_flag(span, FTDM_SPAN_IN_THREAD);
1211 
1212         ftdm_set_flag(isdn_data, FTMOD_LIBPRI_RUNNING);
1213         ret = ftdm_thread_create_detached(ftdm_libpri_run, span);
1214 
1215         if (ret != FTDM_SUCCESS) {
1216                 return ret;
1217         }
1218 
1219         return ret;
1220 }
1221 
1222 /**
1223  * \brief Converts a node string to node value
1224  * \param node Node string to convert
1225  * \return -1 on failure, node value on success
1226  */
1227 static int str2node(char *node)
1228 {
1229         if (!strcasecmp(node, "cpe") || !strcasecmp(node, "user"))
1230                 return PRI_CPE;
1231         if (!strcasecmp(node, "network") || !strcasecmp(node, "net"))
1232                 return PRI_NETWORK;
1233         return -1;
1234 }
1235 
1236 /**
1237  * \brief Converts a switch string to switch value
1238  * \param swtype Swtype string to convert
1239  * \return Switch value
1240  */
1241 static int str2switch(char *swtype)
1242 {
1243         if (!strcasecmp(swtype, "ni1"))
1244                 return PRI_SWITCH_NI1;
1245         if (!strcasecmp(swtype, "ni2"))
1246                 return PRI_SWITCH_NI2;
1247         if (!strcasecmp(swtype, "dms100"))
1248                 return PRI_SWITCH_DMS100;
1249         if (!strcasecmp(swtype, "lucent5e") || !strcasecmp(swtype, "5ess"))
1250                 return PRI_SWITCH_LUCENT5E;
1251         if (!strcasecmp(swtype, "att4ess") || !strcasecmp(swtype, "4ess"))
1252                 return PRI_SWITCH_ATT4ESS;
1253         if (!strcasecmp(swtype, "euroisdn"))
1254                 return PRI_SWITCH_EUROISDN_E1;
1255         if (!strcasecmp(swtype, "gr303eoc"))
1256                 return PRI_SWITCH_GR303_EOC;
1257         if (!strcasecmp(swtype, "gr303tmc"))
1258                 return PRI_SWITCH_GR303_TMC;
1259         return PRI_SWITCH_DMS100;
1260 }
1261 
1262 /**
1263  * \brief Converts a L1 string to L1 value
1264  * \param l1 L1 string to convert
1265  * \return L1 value
1266  */
1267 static int str2l1(char *l1)
1268 {
1269         if (!strcasecmp(l1, "alaw"))
1270                 return PRI_LAYER_1_ALAW;
1271         
1272         return PRI_LAYER_1_ULAW;
1273 }
1274 
1275 /**
1276  * \brief Converts a DP string to DP value
1277  * \param dp DP string to convert
1278  * \return DP value
1279  */
1280 static int str2dp(char *dp)
1281 {
1282         if (!strcasecmp(dp, "international"))
1283                 return PRI_INTERNATIONAL_ISDN;
1284         if (!strcasecmp(dp, "national"))
1285                 return PRI_NATIONAL_ISDN;
1286         if (!strcasecmp(dp, "local"))
1287                 return PRI_LOCAL_ISDN;
1288         if (!strcasecmp(dp, "private"))
1289                 return PRI_PRIVATE;
1290         if (!strcasecmp(dp, "unknown"))
1291                 return PRI_UNKNOWN;
1292 
1293         return PRI_UNKNOWN;
1294 }
1295 
1296 /**
1297  * \brief Initialises a libpri span from configuration variables
1298  * \param span Span to configure
1299  * \param sig_cb Callback function for event signals
1300  * \param ap List of configuration variables
1301  * \return Success or failure
1302  */
1303 static FIO_SIG_CONFIGURE_FUNCTION(ftdm_libpri_configure_span)
1304 {
1305         uint32_t i, x = 0;
1306         //ftdm_channel_t *dchans[2] = {0};
1307         ftdm_libpri_data_t *isdn_data;
1308         char *var, *val;
1309         char *debug = NULL;
1310 
1311         if (span->trunk_type >= FTDM_TRUNK_NONE) {
1312                 ftdm_log(FTDM_LOG_WARNING, "Invalid trunk type '%s' defaulting to T1.\n", ftdm_trunk_type2str(span->trunk_type));
1313                 span->trunk_type = FTDM_TRUNK_T1;
1314         }
1315         
1316         for(i = 1; i <= span->chan_count; i++) {
1317                 if (span->channels[i]->type == FTDM_CHAN_TYPE_DQ921) {
1318                         if (x > 1) {
1319                                 snprintf(span->last_error, sizeof(span->last_error), "Span has more than 2 D-Channels!");
1320                                 return FTDM_FAIL;
1321                         } else {
1322 #if 0
1323                                 if (ftdm_channel_open(span->span_id, i, &dchans[x]) == FTDM_SUCCESS) {
1324                                         ftdm_log(FTDM_LOG_DEBUG, "opening d-channel #%d %d:%d\n", x, dchans[x]->span_id, dchans[x]->chan_id);
1325                                         dchans[x]->state = FTDM_CHANNEL_STATE_UP;
1326                                         x++;
1327                                 }
1328 #endif
1329                         }
1330                 }
1331         }
1332         
1333 #if 0
1334         if (!x) {
1335                 snprintf(span->last_error, sizeof(span->last_error), "Span has no D-Channels!");
1336                 return FTDM_FAIL;
1337         }
1338 #endif
1339 
1340         isdn_data = ftdm_malloc(sizeof(*isdn_data));
1341         assert(isdn_data != NULL);
1342         memset(isdn_data, 0, sizeof(*isdn_data));
1343 
1344     if (span->trunk_type == FTDM_TRUNK_E1) {
1345         ftdm_log(FTDM_LOG_NOTICE, "Setting default Layer 1 to ALAW since this is an E1 trunk\n");
1346         isdn_data->l1 = PRI_LAYER_1_ALAW;
1347     } else if (span->trunk_type == FTDM_TRUNK_T1) {
1348         ftdm_log(FTDM_LOG_NOTICE, "Setting default Layer 1 to ULAW since this is a T1 trunk\n");
1349         isdn_data->l1 = PRI_LAYER_1_ULAW;
1350     }
1351         
1352         while((var = va_arg(ap, char *))) {
1353                 if (!strcasecmp(var, "node")) {
1354                         int node;
1355                         if (!(val = va_arg(ap, char *))) {
1356                                 break;
1357                         }
1358                         node = str2node(val);
1359                         if (-1 == node) {
1360                                 ftdm_log(FTDM_LOG_ERROR, "Unknown node type %s, defaulting to CPE mode\n", val);
1361                                 node = PRI_CPE;
1362                         }
1363                         isdn_data->node = node;
1364                 } else if (!strcasecmp(var, "switch")) {
1365                         if (!(val = va_arg(ap, char *))) {
1366                                 break;
1367                         }
1368                         isdn_data->pswitch = str2switch(val);
1369                 } else if (!strcasecmp(var, "opts")) {
1370                         if (!(val = va_arg(ap, char *))) {
1371                                 break;
1372                         }
1373                         isdn_data->opts = parse_opts(val);
1374                 } else if (!strcasecmp(var, "dp")) {
1375                         if (!(val = va_arg(ap, char *))) {
1376                                 break;
1377                         }
1378                         isdn_data->dp = str2dp(val);
1379                 } else if (!strcasecmp(var, "l1")) {
1380                         if (!(val = va_arg(ap, char *))) {
1381                                 break;
1382                         }
1383                         isdn_data->l1 = str2l1(val);
1384                 } else if (!strcasecmp(var, "debug")) {
1385                         if (!(val = va_arg(ap, char *))) {
1386                                 break;
1387                         }
1388                         debug = val;
1389                 } else {
1390                         snprintf(span->last_error, sizeof(span->last_error), "Unknown parameter [%s]", var);
1391                         return FTDM_FAIL;
1392                 }
1393         }
1394     
1395         span->start = ftdm_libpri_start;
1396         span->stop = ftdm_libpri_stop;
1397         span->signal_cb = sig_cb;
1398         //isdn_data->dchans[0] = dchans[0];
1399         //isdn_data->dchans[1] = dchans[1];
1400         //isdn_data->dchan = isdn_data->dchans[0];
1401         
1402         isdn_data->debug = parse_debug(debug);
1403                 
1404 
1405         span->signal_data = isdn_data;
1406         span->signal_type = FTDM_SIGTYPE_ISDN;
1407         span->outgoing_call = isdn_outgoing_call;
1408 
1409         span->get_channel_sig_status = isdn_get_channel_sig_status;
1410         span->get_span_sig_status = isdn_get_span_sig_status;
1411         
1412         if ((isdn_data->opts & FTMOD_LIBPRI_OPT_SUGGEST_CHANNEL)) {
1413                 span->channel_request = isdn_channel_request;
1414                 ftdm_set_flag(span, FTDM_SPAN_SUGGEST_CHAN_ID);
1415         }
1416 
1417         span->state_map = &isdn_state_map;
1418 
1419         return FTDM_SUCCESS;
1420 }
1421 
1422 /**
1423  * \brief FreeTDM libpri signaling and IO module definition
1424  */
1425 ftdm_module_t ftdm_module = { 
1426         "libpri",
1427         ftdm_libpri_io_init,
1428         ftdm_libpri_unload,
1429         ftdm_libpri_init,
1430         ftdm_libpri_configure_span,
1431         NULL
1432 };
1433 
1434 
1435 /* For Emacs:
1436  * Local Variables:
1437  * mode:c
1438  * indent-tabs-mode:t
1439  * tab-width:4
1440  * c-basic-offset:4
1441  * End:
1442  * For VIM:
1443  * vim:set softtabstop=4 shiftwidth=4 tabstop=4:
1444  */

/* [<][>][^][v][top][bottom][index][help] */