/* * iaxclient: a cross-platform IAX softphone library * * Copyrights: * Copyright (C) 2003-2006, Horizon Wimba, Inc. * Copyright (C) 2007, Wimba, Inc. * * Contributors: * Steve Kann * Michael Van Donselaar * Shawn Lawrence * Frik Strecker * Mihai Balea * Peter Grayson * Bill Cholewka * Erik Bunce * * This program is free software, distributed under the terms of * the GNU Lesser (Library) General Public License. */ #include #if defined(WIN32) || defined(_WIN32_WCE) #include #endif /* Win32 has _vsnprintf instead of vsnprintf */ #if ! HAVE_VSNPRINTF # if HAVE__VSNPRINTF # define vsnprintf _vsnprintf # endif #endif #include "iaxclient_lib.h" #include "audio_portaudio.h" #include "audio_encode.h" #ifdef USE_VIDEO #include "video.h" #endif #include "iax-client.h" #include "jitterbuf.h" #include #ifdef AUDIO_ALSA #include "audio_alsa.h" #endif #define IAXC_ERROR IAXC_TEXT_TYPE_ERROR #define IAXC_STATUS IAXC_TEXT_TYPE_STATUS #define IAXC_NOTICE IAXC_TEXT_TYPE_NOTICE #define DEFAULT_CALLERID_NAME "Not Available" #define DEFAULT_CALLERID_NUMBER "7005551212" #undef JB_DEBUGGING /* global test mode flag */ int test_mode = 0; /* configurable jitterbuffer options */ static long jb_target_extra = -1; struct iaxc_registration { struct iax_session *session; struct timeval last; char host[256]; char user[256]; char pass[256]; long refresh; int id; struct iaxc_registration *next; }; static int next_registration_id = 0; static struct iaxc_registration *registrations = NULL; static struct iaxc_audio_driver audio_driver; static int audio_format_capability; static int audio_format_preferred; // Audio callback behavior // By default apps should let iaxclient handle audio static unsigned int audio_prefs = 0; void * post_event_handle = NULL; int post_event_id = 0; static int minimum_outgoing_framesize = 160; /* 20ms */ static MUTEX iaxc_lock; static MUTEX event_queue_lock; static int iaxci_bound_port = -1; // default to use port 4569 unless set by iaxc_set_preferred_source_udp_port static int source_udp_port = IAX_DEFAULT_PORTNO; int iaxci_audio_output_mode = 0; // Normal int selected_call; // XXX to be protected by mutex? struct iaxc_call* calls; int max_calls; // number of calls for this library session static void service_network(); static int service_audio(); /* external global networking replacements */ static iaxc_sendto_t iaxc_sendto = (iaxc_sendto_t)sendto; static iaxc_recvfrom_t iaxc_recvfrom = (iaxc_recvfrom_t)recvfrom; static THREAD main_proc_thread; #if defined(WIN32) || defined(_WIN32_WCE) static THREADID main_proc_thread_id; #endif /* 0 running, 1 should quit, -1 not running */ static int main_proc_thread_flag = -1; static iaxc_event_callback_t iaxc_event_callback = NULL; // Internal queue of events, waiting to be posted once the library // lock is released. static iaxc_event *event_queue = NULL; // Lock the library static void get_iaxc_lock() { MUTEXLOCK(&iaxc_lock); } int try_iaxc_lock() { return MUTEXTRYLOCK(&iaxc_lock); } // Unlock the library and post any events that were queued in the meantime void put_iaxc_lock() { iaxc_event *prev, *event; MUTEXLOCK(&event_queue_lock); event = event_queue; event_queue = NULL; MUTEXUNLOCK(&event_queue_lock); MUTEXUNLOCK(&iaxc_lock); while (event) { iaxci_post_event(*event); prev = event; event = event->next; free(prev); } } EXPORT void iaxc_set_audio_output(int mode) { iaxci_audio_output_mode = mode; } long iaxci_usecdiff(struct timeval * t0, struct timeval * t1) { return (t0->tv_sec - t1->tv_sec) * 1000000L + t0->tv_usec - t1->tv_usec; } long iaxci_msecdiff(struct timeval * t0, struct timeval * t1) { return iaxci_usecdiff(t0, t1) / 1000L; } EXPORT void iaxc_set_event_callback(iaxc_event_callback_t func) { iaxc_event_callback = func; } EXPORT int iaxc_set_event_callpost(void *handle, int id) { post_event_handle = handle; post_event_id = id; iaxc_event_callback = iaxci_post_event_callback; return 0; } EXPORT void iaxc_free_event(iaxc_event *e) { free(e); } EXPORT struct iaxc_ev_levels *iaxc_get_event_levels(iaxc_event *e) { return &e->ev.levels; } EXPORT struct iaxc_ev_text *iaxc_get_event_text(iaxc_event *e) { return &e->ev.text; } EXPORT struct iaxc_ev_call_state *iaxc_get_event_state(iaxc_event *e) { return &e->ev.call; } // Messaging functions static void default_message_callback(const char * message) { //fprintf(stderr, "IAXCLIENT: %s\n", message); } // Post Events back to clients void iaxci_post_event(iaxc_event e) { if ( e.type == 0 ) { iaxci_usermsg(IAXC_ERROR, "Error: something posted to us an invalid event"); return; } if ( MUTEXTRYLOCK(&iaxc_lock) ) { iaxc_event **tail; /* We could not obtain the lock. Queue the event. */ MUTEXLOCK(&event_queue_lock); tail = &event_queue; e.next = NULL; while ( *tail ) tail = &(*tail)->next; *tail = (iaxc_event *)malloc(sizeof(iaxc_event)); memcpy(*tail, &e, sizeof(iaxc_event)); MUTEXUNLOCK(&event_queue_lock); return; } /* TODO: This is not the best. Since we were able to get the * lock, we decide that it is okay to go ahead and do the * callback to the application. This is really nasty because * it gives the appearance of serialized callbacks, but in * reality, we could callback an application multiple times * simultaneously. So, as things stand, an application must * do some locking in their callback function to make it * reentrant. Barf. More ideally, iaxclient would guarantee * serialized callbacks to the application. */ MUTEXUNLOCK(&iaxc_lock); if ( iaxc_event_callback ) { int rv; rv = iaxc_event_callback(e); if ( e.type == IAXC_EVENT_VIDEO ) { /* We can free the frame data once it is off the * event queue and has been processed by the client. */ free(e.ev.video.data); } else if ( e.type == IAXC_EVENT_AUDIO ) { free(e.ev.audio.data); } if ( rv < 0 ) default_message_callback( "IAXCLIENT: BIG PROBLEM, event callback returned failure!"); // > 0 means processed if ( rv > 0 ) return; // else, fall through to "defaults" } switch ( e.type ) { case IAXC_EVENT_TEXT: default_message_callback(e.ev.text.message); // others we just ignore too return; } } void iaxci_usermsg(int type, const char *fmt, ...) { va_list args; iaxc_event e; e.type = IAXC_EVENT_TEXT; e.ev.text.type = type; e.ev.text.callNo = -1; va_start(args, fmt); vsnprintf(e.ev.text.message, IAXC_EVENT_BUFSIZ, fmt, args); va_end(args); iaxci_post_event(e); } void iaxci_do_levels_callback(float input, float output) { iaxc_event e; e.type = IAXC_EVENT_LEVELS; e.ev.levels.input = input; e.ev.levels.output = output; iaxci_post_event(e); } void iaxci_do_state_callback(int callNo) { iaxc_event e; if ( callNo < 0 || callNo >= max_calls ) return; e.type = IAXC_EVENT_STATE; e.ev.call.callNo = callNo; e.ev.call.state = calls[callNo].state; e.ev.call.format = calls[callNo].format; e.ev.call.vformat = calls[callNo].vformat; strncpy(e.ev.call.remote, calls[callNo].remote, IAXC_EVENT_BUFSIZ); strncpy(e.ev.call.remote_name, calls[callNo].remote_name, IAXC_EVENT_BUFSIZ); strncpy(e.ev.call.local, calls[callNo].local, IAXC_EVENT_BUFSIZ); strncpy(e.ev.call.local_context, calls[callNo].local_context, IAXC_EVENT_BUFSIZ); iaxci_post_event(e); } void iaxci_do_registration_callback(int id, int reply, int msgcount) { iaxc_event e; e.type = IAXC_EVENT_REGISTRATION; e.ev.reg.id = id; e.ev.reg.reply = reply; e.ev.reg.msgcount = msgcount; iaxci_post_event(e); } void iaxci_do_audio_callback(int callNo, unsigned int ts, int source, int encoded, int format, int size, unsigned char *data) { iaxc_event e; e.type = IAXC_EVENT_AUDIO; e.ev.audio.ts = ts; e.ev.audio.encoded = encoded; assert(source == IAXC_SOURCE_REMOTE || source == IAXC_SOURCE_LOCAL); e.ev.audio.source = source; e.ev.audio.size = size; e.ev.audio.callNo = callNo; e.ev.audio.format = format; e.ev.audio.data = (unsigned char *)malloc(size); if ( !e.ev.audio.data ) { iaxci_usermsg(IAXC_ERROR, "failed to allocate memory for audio event"); return; } memcpy(e.ev.audio.data, data, size); iaxci_post_event(e); } void iaxci_do_dtmf_callback(int callNo, char digit) { iaxc_event e; e.type = IAXC_EVENT_DTMF; e.ev.dtmf.callNo = callNo; e.ev.dtmf.digit = digit; iaxci_post_event(e); } static int iaxc_remove_registration_by_id(int id) { struct iaxc_registration *curr, *prev; int count = 0; for ( prev = NULL, curr = registrations; curr != NULL; prev = curr, curr = curr->next ) { if ( curr->id == id ) { count++; if ( curr->session != NULL ) iax_destroy( curr->session ); if ( prev != NULL ) prev->next = curr->next; else registrations = curr->next; free( curr ); break; } } return count; } EXPORT int iaxc_first_free_call() { int i; for ( i = 0; i < max_calls; i++ ) if ( calls[i].state == IAXC_CALL_STATE_FREE ) return i; return -1; } static void iaxc_clear_call(int toDump) { // XXX libiax should handle cleanup, I think.. calls[toDump].state = IAXC_CALL_STATE_FREE; calls[toDump].format = 0; calls[toDump].vformat = 0; calls[toDump].session = NULL; iaxci_do_state_callback(toDump); } /* select a call. */ /* XXX Locking?? Start/stop audio?? */ EXPORT int iaxc_select_call(int callNo) { // continue if already selected? //if ( callNo == selected_call ) return; if ( callNo >= max_calls ) { iaxci_usermsg(IAXC_ERROR, "Error: tried to select out_of_range call %d", callNo); return -1; } // callNo < 0 means no call selected (i.e. all on hold) if ( callNo < 0 ) { if ( selected_call >= 0 ) { calls[selected_call].state &= ~IAXC_CALL_STATE_SELECTED; } selected_call = callNo; return 0; } // de-select and notify the old call if not also the new call if ( callNo != selected_call ) { if ( selected_call >= 0 ) { calls[selected_call].state &= ~IAXC_CALL_STATE_SELECTED; iaxci_do_state_callback(selected_call); } selected_call = callNo; calls[selected_call].state |= IAXC_CALL_STATE_SELECTED; } // if it's an incoming call, and ringing, answer it. if ( !(calls[selected_call].state & IAXC_CALL_STATE_OUTGOING) && (calls[selected_call].state & IAXC_CALL_STATE_RINGING) ) { iaxc_answer_call(selected_call); } else { // otherwise just update state (answer does this for us) iaxci_do_state_callback(selected_call); } return 0; } /* external API accessor */ EXPORT int iaxc_selected_call() { return selected_call; } EXPORT void iaxc_set_networking(iaxc_sendto_t st, iaxc_recvfrom_t rf) { iaxc_sendto = st; iaxc_recvfrom = rf; } EXPORT void iaxc_set_jb_target_extra( long value ) { /* store in jb_target_extra, a static global */ jb_target_extra = value; } static void jb_errf(const char *fmt, ...) { va_list args; char buf[1024]; va_start(args, fmt); vsnprintf(buf, 1024, fmt, args); va_end(args); iaxci_usermsg(IAXC_ERROR, buf); } static void jb_warnf(const char *fmt, ...) { va_list args; char buf[1024]; va_start(args, fmt); vsnprintf(buf, 1024, fmt, args); va_end(args); iaxci_usermsg(IAXC_NOTICE, buf); } #ifdef JB_DEBUGGING static void jb_dbgf(const char *fmt, ...) { va_list args; va_start(args, fmt); vfprintf(stderr, fmt, args); va_end(args); } #endif static void setup_jb_output() { #ifdef JB_DEBUGGING jb_setoutput(jb_errf, jb_warnf, jb_dbgf); #else jb_setoutput(jb_errf, jb_warnf, NULL); #endif } // Note: Must be called before iaxc_initialize() EXPORT void iaxc_set_preferred_source_udp_port(int port) { source_udp_port = port; } /* For "slow" systems. See iax.c code */ EXPORT int iaxc_video_bypass_jitter(int mode) { /* TODO: * 1. When switching from jitter to no-jitter the buffer must be * flushed of queued video packet and must be sent a key-frame * to redraw the screen (partially done). * 2. When switching from no-jitter to jitter we must drop all * enqueued events prior the mode change (must be touched * iax_sched_del and iax_get_event). */ return iax_video_bypass_jitter(calls[selected_call].session,mode); } EXPORT int iaxc_get_bind_port() { return iaxci_bound_port; } EXPORT int iaxc_initialize(int num_calls) { int i; int port; os_init(); setup_jb_output(); MUTEXINIT(&iaxc_lock); MUTEXINIT(&event_queue_lock); iaxc_set_audio_prefs(0); if ( iaxc_recvfrom != (iaxc_recvfrom_t)recvfrom ) iax_set_networking(iaxc_sendto, iaxc_recvfrom); /* Note that iax_init() only sets up the receive port when the * sendto/recvfrom functions have not been replaced. We need * to call iaxc_init in either case because there is other * initialization beyond the socket setup that needs to be done. */ if ( (port = iax_init(source_udp_port)) < 0 ) { iaxci_usermsg(IAXC_ERROR, "Fatal error: failed to initialize iax with port %d", port); return -1; } if ( iaxc_recvfrom == (iaxc_recvfrom_t)recvfrom ) iaxci_bound_port = port; else iaxci_bound_port = -1; /* tweak the jitterbuffer settings */ iax_set_jb_target_extra( jb_target_extra ); max_calls = num_calls; /* initialize calls */ if ( max_calls <= 0 ) max_calls = 1; /* 0 == Default? */ /* calloc zeroes for us */ calls = (struct iaxc_call *)calloc(sizeof(struct iaxc_call), max_calls); if ( !calls ) { iaxci_usermsg(IAXC_ERROR, "Fatal error: can't allocate memory"); return -1; } selected_call = -1; for ( i = 0; i < max_calls; i++ ) { strncpy(calls[i].callerid_name, DEFAULT_CALLERID_NAME, IAXC_EVENT_BUFSIZ); strncpy(calls[i].callerid_number, DEFAULT_CALLERID_NUMBER, IAXC_EVENT_BUFSIZ); } if ( !test_mode ) { #ifdef AUDIO_PA if ( pa_initialize(&audio_driver, 8000) ) { iaxci_usermsg(IAXC_ERROR, "failed pa_initialize"); return -1; } #endif #ifdef AUDIO_ALSA /* TODO: It is unknown whether this stuff for direct access to * alsa should be left in iaxclient. We're leaving it in here for * the time being, but unless it becomes clear that someone cares * about having it, it will be removed. Also note that portaudio * is capable of using alsa. This is another reason why this * direct alsa access may be unneeded. */ if ( alsa_initialize(&audio_driver, 8000) ) return -1; #endif #ifdef AUDIO_OPENAL if ( openal_initialize(&audio_driver, 8000) ) { iaxci_usermsg(IAXC_ERROR, "failed openal_initialize"); return -1; } #endif } #ifdef USE_VIDEO if ( video_initialize() ) iaxci_usermsg(IAXC_ERROR, "iaxc_initialize: cannot initialize video!\n"); #endif /* Default audio format capabilities */ audio_format_capability = IAXC_FORMAT_ULAW | IAXC_FORMAT_ALAW | #ifdef CODEC_GSM IAXC_FORMAT_GSM | #endif IAXC_FORMAT_SPEEX; audio_format_preferred = IAXC_FORMAT_SPEEX; return 0; } EXPORT void iaxc_shutdown() { iaxc_dump_all_calls(); get_iaxc_lock(); if ( !test_mode ) { audio_driver.destroy(&audio_driver); #ifdef USE_VIDEO video_destroy(); #endif } /* destroy enocders and decoders for all existing calls */ if ( calls ) { int i; for ( i=0 ; idestroy(calls[i].encoder); if ( calls[i].decoder ) calls[i].decoder->destroy(calls[i].decoder); if ( calls[i].vencoder ) calls[i].vencoder->destroy(calls[i].vencoder); if ( calls[i].vdecoder ) calls[i].vdecoder->destroy(calls[i].vdecoder); } free(calls); calls = NULL; } put_iaxc_lock(); #ifdef WIN32 //closesocket(iax_get_fd()); //fd: #endif free(calls); MUTEXDESTROY(&event_queue_lock); MUTEXDESTROY(&iaxc_lock); } EXPORT void iaxc_set_formats(int preferred, int allowed) { audio_format_capability = allowed; audio_format_preferred = preferred; } EXPORT void iaxc_set_min_outgoing_framesize(int samples) { minimum_outgoing_framesize = samples; } EXPORT void iaxc_set_callerid(const char * name, const char * number) { int i; for ( i = 0; i < max_calls; i++ ) { strncpy(calls[i].callerid_name, name, IAXC_EVENT_BUFSIZ); strncpy(calls[i].callerid_number, number, IAXC_EVENT_BUFSIZ); } } static void iaxc_note_activity(int callNo) { if ( callNo < 0 ) return; calls[callNo].last_activity = iax_tvnow(); } static void iaxc_refresh_registrations() { struct iaxc_registration *cur; struct timeval now; now = iax_tvnow(); for ( cur = registrations; cur != NULL; cur = cur->next ) { // If there is less than three seconds before the registration is about // to expire, renew it. if ( iaxci_usecdiff(&now, &cur->last) > (cur->refresh - 3) * 1000 *1000 ) { if ( cur->session != NULL ) { iax_destroy( cur->session ); } cur->session = iax_session_new(); if ( !cur->session ) { iaxci_usermsg(IAXC_ERROR, "Can't make new registration session"); return; } iax_register(cur->session, cur->host, cur->user, cur->pass, cur->refresh); cur->last = now; } } } #define LOOP_SLEEP 5 // In ms static THREADFUNCDECL(main_proc_thread_func) { static int refresh_registration_count = 0; THREADFUNCRET(ret); /* Increase Priority */ iaxci_prioboostbegin(); while ( !main_proc_thread_flag ) { get_iaxc_lock(); service_network(); if ( !test_mode ) service_audio(); // Check registration refresh once a second if ( refresh_registration_count++ > 1000/LOOP_SLEEP ) { iaxc_refresh_registrations(); refresh_registration_count = 0; } put_iaxc_lock(); iaxc_millisleep(LOOP_SLEEP); } /* Decrease priority */ iaxci_prioboostend(); main_proc_thread_flag = -1; return ret; } EXPORT int iaxc_start_processing_thread() { main_proc_thread_flag = 0; if ( THREADCREATE(main_proc_thread_func, NULL, main_proc_thread, main_proc_thread_id) == THREADCREATE_ERROR) return -1; return 0; } EXPORT int iaxc_stop_processing_thread() { if ( main_proc_thread_flag >= 0 ) { main_proc_thread_flag = 1; THREADJOIN(main_proc_thread); } return 0; } static int service_audio() { /* TODO: maybe we shouldn't allocate 8kB on the stack here. */ short buf [4096]; int want_send_audio = selected_call >= 0 && ((calls[selected_call].state & IAXC_CALL_STATE_OUTGOING) || (calls[selected_call].state & IAXC_CALL_STATE_COMPLETE)) && !(audio_prefs & IAXC_AUDIO_PREF_SEND_DISABLE); int want_local_audio = (audio_prefs & IAXC_AUDIO_PREF_RECV_LOCAL_RAW) || (audio_prefs & IAXC_AUDIO_PREF_RECV_LOCAL_ENCODED); if ( want_local_audio || want_send_audio ) { for ( ;; ) { int to_read; int cmin; audio_driver.start(&audio_driver); /* use codec minimum if higher */ cmin = want_send_audio && calls[selected_call].encoder ? calls[selected_call].encoder->minimum_frame_size : 1; to_read = cmin > minimum_outgoing_framesize ? cmin : minimum_outgoing_framesize; /* Round up to the next multiple */ if ( to_read % cmin ) to_read += cmin - (to_read % cmin); if ( to_read > (int)(sizeof(buf) / sizeof(short)) ) { fprintf(stderr, "internal error: to_read > sizeof(buf)\n"); exit(1); } /* Currently pa gives us either all the bits we ask for or none */ if ( audio_driver.input(&audio_driver, buf, &to_read) ) { iaxci_usermsg(IAXC_ERROR, "ERROR reading audio\n"); break; } /* Frame was not available */ if ( !to_read ) break; if ( audio_prefs & IAXC_AUDIO_PREF_RECV_LOCAL_RAW ) iaxci_do_audio_callback(selected_call, 0, IAXC_SOURCE_LOCAL, 0, 0, to_read * 2, (unsigned char *)buf); if ( want_send_audio ) audio_send_encoded_audio(&calls[selected_call], selected_call, buf, calls[selected_call].format & IAXC_AUDIO_FORMAT_MASK, to_read); } } else { static int i = 0; audio_driver.stop(&audio_driver); /*! \deprecated Q: Why do we continuously send IAXC_EVENT_LEVELS events when there is no selected call? A: So that certain users of iaxclient do not have to reset their vu meters when a call ends -- they can just count on getting level callbacks. This is a bit of a hack so any applications relying on this behavior should maybe be changed. */ if ( i++ % 50 == 0 ) iaxci_do_levels_callback(AUDIO_ENCODE_SILENCE_DB, AUDIO_ENCODE_SILENCE_DB); } return 0; } /* handle IAX text events */ static void handle_text_event(struct iax_event *e, int callNo) { iaxc_event ev; int len; if ( callNo < 0 ) return; memset(&ev, 0, sizeof(iaxc_event)); ev.type = IAXC_EVENT_TEXT; ev.ev.text.type = IAXC_TEXT_TYPE_IAX; ev.ev.text.callNo = callNo; len = e->datalen <= IAXC_EVENT_BUFSIZ - 1 ? e->datalen : IAXC_EVENT_BUFSIZ - 1; strncpy(ev.ev.text.message, (char *) e->data, len); iaxci_post_event(ev); } /* handle IAX URL events */ void handle_url_event( struct iax_event *e, int callNo ) { iaxc_event ev; if ( callNo < 0 ) return; ev.ev.url.callNo = callNo; ev.type = IAXC_EVENT_URL; strcpy( ev.ev.url.url, "" ); switch ( e->subclass ) { case AST_HTML_URL: ev.ev.url.type = IAXC_URL_URL; if ( e->datalen ) { if ( e->datalen > IAXC_EVENT_BUFSIZ ) { fprintf( stderr, "ERROR: URL too long %d > %d\n", e->datalen, IAXC_EVENT_BUFSIZ ); } else { strncpy( ev.ev.url.url, (char *) e->data, e->datalen ); } } /* fprintf( stderr, "URL:%s\n", ev.ev.url.url ); */ break; case AST_HTML_LINKURL: ev.ev.url.type = IAXC_URL_LINKURL; /* fprintf( stderr, "LINKURL event\n" ); */ break; case AST_HTML_LDCOMPLETE: ev.ev.url.type = IAXC_URL_LDCOMPLETE; /* fprintf( stderr, "LDCOMPLETE event\n" ); */ break; case AST_HTML_UNLINK: ev.ev.url.type = IAXC_URL_UNLINK; /* fprintf( stderr, "UNLINK event\n" ); */ break; case AST_HTML_LINKREJECT: ev.ev.url.type = IAXC_URL_LINKREJECT; /* fprintf( stderr, "LINKREJECT event\n" ); */ break; default: fprintf( stderr, "Unknown URL event %d\n", e->subclass ); break; } iaxci_post_event( ev ); } /* DANGER: bad things can happen if iaxc_netstat != iax_netstat.. */ EXPORT int iaxc_get_netstats(int call, int *rtt, struct iaxc_netstat *local, struct iaxc_netstat *remote) { return iax_get_netstats(calls[call].session, rtt, (struct iax_netstat *)local, (struct iax_netstat *)remote); } /* handle IAX text events */ static void generate_netstat_event(int callNo) { iaxc_event ev; if ( callNo < 0 ) return; ev.type = IAXC_EVENT_NETSTAT; ev.ev.netstats.callNo = callNo; /* only post the event if the session is valid, etc */ if ( !iaxc_get_netstats(callNo, &ev.ev.netstats.rtt, &ev.ev.netstats.local, &ev.ev.netstats.remote)) iaxci_post_event(ev); } static void handle_audio_event(struct iax_event *e, int callNo) { int total_consumed = 0; short fr[4096]; const int fr_samples = sizeof(fr) / sizeof(short); int samples, format; #ifdef WIN32 int cycles_max = 100; //fd: #endif struct iaxc_call *call; if ( callNo < 0 ) return; call = &calls[callNo]; if ( callNo != selected_call ) { /* drop audio for unselected call? */ return; } samples = fr_samples; format = call->format & IAXC_AUDIO_FORMAT_MASK; do { int bytes_decoded; int mainbuf_delta = fr_samples - samples; bytes_decoded = audio_decode_audio(call, fr, e->data + total_consumed, e->datalen - total_consumed, format, &samples); if ( bytes_decoded < 0 ) { iaxci_usermsg(IAXC_STATUS, "Bad or incomplete voice packet. Unable to decode. dropping"); return; } /* Pass encoded audio back to the app if required */ if ( audio_prefs & IAXC_AUDIO_PREF_RECV_REMOTE_ENCODED ) iaxci_do_audio_callback(callNo, e->ts, IAXC_SOURCE_REMOTE, 1, format & IAXC_AUDIO_FORMAT_MASK, e->datalen - total_consumed, e->data + total_consumed); #ifdef WIN32 //fd: start: for some reason it loops here. Try to avoid it cycles_max--; if ( cycles_max < 0 ) { iaxc_millisleep(0); } //fd: end #endif total_consumed += bytes_decoded; if ( audio_prefs & IAXC_AUDIO_PREF_RECV_REMOTE_RAW ) { // audio_decode_audio returns the number of samples. // We are using 16 bit samples, so we need to double // the number to obtain the size in bytes. // format will also be 0 since this is raw audio int size = (fr_samples - samples - mainbuf_delta) * 2; iaxci_do_audio_callback(callNo, e->ts, IAXC_SOURCE_REMOTE, 0, 0, size, (unsigned char *)fr); } if ( iaxci_audio_output_mode ) continue; if ( !test_mode ) audio_driver.output(&audio_driver, fr, fr_samples - samples - mainbuf_delta); } while ( total_consumed < e->datalen ); } #ifdef USE_VIDEO static void handle_video_event(struct iax_event *e, int callNo) { struct iaxc_call *call; if ( callNo < 0 ) return; if ( e->datalen == 0 ) { iaxci_usermsg(IAXC_STATUS, "Received 0-size packet. Unable to decode."); return; } call = &calls[callNo]; if ( callNo != selected_call ) { /* drop video for unselected call? */ return; } if ( call->vformat ) { if ( video_recv_video(call, selected_call, e->data, e->datalen, e->ts, call->vformat) < 0 ) { iaxci_usermsg(IAXC_STATUS, "Bad or incomplete video packet. Unable to decode."); return; } } } #endif /* USE_VIDEO */ static void iaxc_handle_network_event(struct iax_event *e, int callNo) { if ( callNo < 0 ) return; iaxc_note_activity(callNo); switch ( e->etype ) { case IAX_EVENT_NULL: break; case IAX_EVENT_HANGUP: iaxci_usermsg(IAXC_STATUS, "Call disconnected by remote"); // XXX does the session go away now? iaxc_clear_call(callNo); break; case IAX_EVENT_REJECT: iaxci_usermsg(IAXC_STATUS, "Call rejected by remote"); iaxc_clear_call(callNo); break; case IAX_EVENT_ACCEPT: calls[callNo].format = e->ies.format & IAXC_AUDIO_FORMAT_MASK; calls[callNo].vformat = e->ies.format & IAXC_VIDEO_FORMAT_MASK; #ifdef USE_VIDEO if ( !(e->ies.format & IAXC_VIDEO_FORMAT_MASK) ) { iaxci_usermsg(IAXC_NOTICE, "Failed video codec negotiation."); } #endif iaxci_usermsg(IAXC_STATUS,"Call %d accepted", callNo); break; case IAX_EVENT_ANSWER: calls[callNo].state &= ~IAXC_CALL_STATE_RINGING; calls[callNo].state |= IAXC_CALL_STATE_COMPLETE; iaxci_do_state_callback(callNo); iaxci_usermsg(IAXC_STATUS,"Call %d answered", callNo); //iaxc_answer_call(callNo); // notify the user? break; case IAX_EVENT_BUSY: calls[callNo].state &= ~IAXC_CALL_STATE_RINGING; calls[callNo].state |= IAXC_CALL_STATE_BUSY; iaxci_do_state_callback(callNo); iaxci_usermsg(IAXC_STATUS, "Call %d busy", callNo); break; case IAX_EVENT_VOICE: handle_audio_event(e, callNo); if ( (calls[callNo].state & IAXC_CALL_STATE_OUTGOING) && (calls[callNo].state & IAXC_CALL_STATE_RINGING) ) { calls[callNo].state &= ~IAXC_CALL_STATE_RINGING; calls[callNo].state |= IAXC_CALL_STATE_COMPLETE; iaxci_do_state_callback(callNo); iaxci_usermsg(IAXC_STATUS,"Call %d progress", callNo); } break; #ifdef USE_VIDEO case IAX_EVENT_VIDEO: handle_video_event(e, callNo); break; #endif case IAX_EVENT_TEXT: handle_text_event(e, callNo); break; case IAX_EVENT_RINGA: calls[callNo].state |= IAXC_CALL_STATE_RINGING; iaxci_do_state_callback(callNo); iaxci_usermsg(IAXC_STATUS,"Call %d ringing", callNo); break; case IAX_EVENT_PONG: generate_netstat_event(callNo); break; case IAX_EVENT_URL: handle_url_event(e, callNo); break; case IAX_EVENT_CNG: /* ignore? */ break; case IAX_EVENT_TIMEOUT: iax_hangup(e->session, "Call timed out"); iaxci_usermsg(IAXC_STATUS, "Call %d timed out.", callNo); iaxc_clear_call(callNo); break; case IAX_EVENT_TRANSFER: calls[callNo].state |= IAXC_CALL_STATE_TRANSFER; iaxci_do_state_callback(callNo); iaxci_usermsg(IAXC_STATUS,"Call %d transfer released", callNo); break; case IAX_EVENT_DTMF: iaxci_do_dtmf_callback(callNo,e->subclass); iaxci_usermsg(IAXC_STATUS, "DTMF digit %c received", e->subclass); break; default: iaxci_usermsg(IAXC_STATUS, "Unknown event: %d for call %d", e->etype, callNo); break; } } EXPORT int iaxc_unregister( int id ) { int count = 0; get_iaxc_lock(); count = iaxc_remove_registration_by_id(id); put_iaxc_lock(); return count; } EXPORT int iaxc_register(const char * user, const char * pass, const char * host) { return iaxc_register_ex(user, pass, host, 60); } EXPORT int iaxc_register_ex(const char * user, const char * pass, const char * host, int refresh) { struct iaxc_registration *newreg; newreg = (struct iaxc_registration *)malloc(sizeof (struct iaxc_registration)); if ( !newreg ) { iaxci_usermsg(IAXC_ERROR, "Can't make new registration"); return -1; } get_iaxc_lock(); newreg->session = iax_session_new(); if ( !newreg->session ) { iaxci_usermsg(IAXC_ERROR, "Can't make new registration session"); put_iaxc_lock(); return -1; } newreg->last = iax_tvnow(); newreg->refresh = refresh; strncpy(newreg->host, host, 256); strncpy(newreg->user, user, 256); strncpy(newreg->pass, pass, 256); /* send out the initial registration with refresh seconds */ iax_register(newreg->session, host, user, pass, refresh); /* add it to the list; */ newreg->id = ++next_registration_id; newreg->next = registrations; registrations = newreg; put_iaxc_lock(); return newreg->id; } static void codec_destroy( int callNo ) { if ( calls[callNo].encoder ) { calls[callNo].encoder->destroy( calls[callNo].encoder ); calls[callNo].encoder = NULL; } if ( calls[callNo].decoder ) { calls[callNo].decoder->destroy( calls[callNo].decoder ); calls[callNo].decoder = NULL; } if ( calls[callNo].vdecoder ) { calls[callNo].vdecoder->destroy(calls[callNo].vdecoder); calls[callNo].vdecoder = NULL; } if ( calls[callNo].vencoder ) { calls[callNo].vencoder->destroy(calls[callNo].vencoder); calls[callNo].vencoder = NULL; } } EXPORT int iaxc_call(const char * num) { return iaxc_call_ex(num, NULL, NULL, 1); } EXPORT int iaxc_call_ex(const char *num, const char* callerid_name, const char* callerid_number, int video) { int video_format_capability = 0; int video_format_preferred = 0; int callNo = -1; struct iax_session *newsession; char *ext = strstr(num, "/"); get_iaxc_lock(); // if no call is selected, get a new appearance if ( selected_call < 0 ) { callNo = iaxc_first_free_call(); } else { // use selected call if not active, otherwise, get a new appearance if ( calls[selected_call].state & IAXC_CALL_STATE_ACTIVE ) { callNo = iaxc_first_free_call(); } else { callNo = selected_call; } } if ( callNo < 0 ) { iaxci_usermsg(IAXC_STATUS, "No free call appearances"); goto iaxc_call_bail; } newsession = iax_session_new(); if ( !newsession ) { iaxci_usermsg(IAXC_ERROR, "Can't make new session"); goto iaxc_call_bail; } calls[callNo].session = newsession; codec_destroy( callNo ); if ( ext ) { strncpy(calls[callNo].remote_name, num, IAXC_EVENT_BUFSIZ); strncpy(calls[callNo].remote, ++ext, IAXC_EVENT_BUFSIZ); } else { strncpy(calls[callNo].remote_name, num, IAXC_EVENT_BUFSIZ); strncpy(calls[callNo].remote, "" , IAXC_EVENT_BUFSIZ); } if ( callerid_number != NULL ) strncpy(calls[callNo].callerid_number, callerid_number, IAXC_EVENT_BUFSIZ); if ( callerid_name != NULL ) strncpy(calls[callNo].callerid_name, callerid_name, IAXC_EVENT_BUFSIZ); strncpy(calls[callNo].local , calls[callNo].callerid_name, IAXC_EVENT_BUFSIZ); strncpy(calls[callNo].local_context, "default", IAXC_EVENT_BUFSIZ); calls[callNo].state = IAXC_CALL_STATE_ACTIVE | IAXC_CALL_STATE_OUTGOING; /* reset activity and ping "timers" */ iaxc_note_activity(callNo); calls[callNo].last_ping = calls[callNo].last_activity; #ifdef USE_VIDEO if ( video ) iaxc_video_format_get_cap(&video_format_preferred, &video_format_capability); #endif iaxci_usermsg(IAXC_NOTICE, "Originating an %s call", video_format_preferred ? "audio+video" : "audio only"); iax_call(calls[callNo].session, calls[callNo].callerid_number, calls[callNo].callerid_name, num, NULL, 0, audio_format_preferred | video_format_preferred, audio_format_capability | video_format_capability); // does state stuff also iaxc_select_call(callNo); iaxc_call_bail: put_iaxc_lock(); return callNo; } EXPORT void iaxc_send_busy_on_incoming_call(int callNo) { if ( callNo < 0 ) return; iax_busy(calls[callNo].session); } EXPORT void iaxc_answer_call(int callNo) { if ( callNo < 0 ) return; calls[callNo].state |= IAXC_CALL_STATE_COMPLETE; calls[callNo].state &= ~IAXC_CALL_STATE_RINGING; iax_answer(calls[callNo].session); iaxci_do_state_callback(callNo); } EXPORT void iaxc_blind_transfer_call(int callNo, const char * dest_extension) { if ( callNo < 0 || !(calls[callNo].state & IAXC_CALL_STATE_ACTIVE) ) return; iax_transfer(calls[callNo].session, dest_extension); } EXPORT void iaxc_setup_call_transfer(int sourceCallNo, int targetCallNo) { if ( sourceCallNo < 0 || targetCallNo < 0 || !(calls[sourceCallNo].state & IAXC_CALL_STATE_ACTIVE) || !(calls[targetCallNo].state & IAXC_CALL_STATE_ACTIVE) ) return; iax_setup_transfer(calls[sourceCallNo].session, calls[targetCallNo].session); } static void iaxc_dump_one_call(int callNo) { if ( callNo < 0 ) return; if ( calls[callNo].state == IAXC_CALL_STATE_FREE ) return; iax_hangup(calls[callNo].session,"Dumped Call"); iaxci_usermsg(IAXC_STATUS, "Hanging up call %d", callNo); iaxc_clear_call(callNo); } EXPORT void iaxc_dump_all_calls(void) { int callNo; get_iaxc_lock(); for ( callNo = 0; callNo < max_calls; callNo++ ) iaxc_dump_one_call(callNo); put_iaxc_lock(); } EXPORT void iaxc_dump_call_number( int callNo ) { if ( ( callNo >= 0 ) && ( callNo < max_calls ) ) { get_iaxc_lock(); iaxc_dump_one_call(callNo); put_iaxc_lock(); } } EXPORT void iaxc_dump_call(void) { if ( selected_call >= 0 ) { get_iaxc_lock(); iaxc_dump_one_call(selected_call); put_iaxc_lock(); } } EXPORT void iaxc_reject_call(void) { if ( selected_call >= 0 ) { iaxc_reject_call_number(selected_call); } } EXPORT void iaxc_reject_call_number( int callNo ) { if ( ( callNo >= 0 ) && ( callNo < max_calls ) ) { get_iaxc_lock(); iax_reject(calls[callNo].session, "Call rejected manually."); iaxc_clear_call(callNo); put_iaxc_lock(); } } EXPORT void iaxc_send_dtmf(char digit) { if ( selected_call >= 0 ) { get_iaxc_lock(); if ( calls[selected_call].state & IAXC_CALL_STATE_ACTIVE ) iax_send_dtmf(calls[selected_call].session,digit); put_iaxc_lock(); } } EXPORT void iaxc_send_text(const char * text) { if ( selected_call >= 0 ) { get_iaxc_lock(); if ( calls[selected_call].state & IAXC_CALL_STATE_ACTIVE ) iax_send_text(calls[selected_call].session, text); put_iaxc_lock(); } } EXPORT void iaxc_send_text_call(int callNo, const char * text) { if ( callNo < 0 || !(calls[callNo].state & IAXC_CALL_STATE_ACTIVE) ) return; get_iaxc_lock(); if ( calls[callNo].state & IAXC_CALL_STATE_ACTIVE ) iax_send_text(calls[callNo].session, text); put_iaxc_lock(); } EXPORT void iaxc_send_url(const char * url, int link) { if ( selected_call >= 0 ) { get_iaxc_lock(); if ( calls[selected_call].state & IAXC_CALL_STATE_ACTIVE ) iax_send_url(calls[selected_call].session, url, link); put_iaxc_lock(); } } static int iaxc_find_call_by_session(struct iax_session *session) { int i; for ( i = 0; i < max_calls; i++ ) if ( calls[i].session == session ) return i; return -1; } static struct iaxc_registration *iaxc_find_registration_by_session( struct iax_session *session) { struct iaxc_registration *reg; for (reg = registrations; reg != NULL; reg = reg->next) if ( reg->session == session ) break; return reg; } static void iaxc_handle_regreply(struct iax_event *e, struct iaxc_registration *reg) { iaxci_do_registration_callback(reg->id, e->etype, e->ies.msgcount); // XXX I think the session is no longer valid.. at least, that's // what miniphone does, and re-using the session doesn't seem to // work! iax_destroy(reg->session); reg->session = NULL; if ( e->etype == IAX_EVENT_REGREJ ) { // we were rejected, so end the registration iaxc_remove_registration_by_id(reg->id); } } /* this is what asterisk does */ static int iaxc_choose_codec(int formats) { int i; static int codecs[] = { IAXC_FORMAT_ULAW, IAXC_FORMAT_ALAW, IAXC_FORMAT_SLINEAR, IAXC_FORMAT_G726, IAXC_FORMAT_ADPCM, IAXC_FORMAT_GSM, IAXC_FORMAT_ILBC, IAXC_FORMAT_SPEEX, IAXC_FORMAT_LPC10, IAXC_FORMAT_G729A, IAXC_FORMAT_G723_1, /* To negotiate video codec */ IAXC_FORMAT_JPEG, IAXC_FORMAT_PNG, IAXC_FORMAT_H261, IAXC_FORMAT_H263, IAXC_FORMAT_H263_PLUS, IAXC_FORMAT_MPEG4, IAXC_FORMAT_H264, IAXC_FORMAT_THEORA, }; for ( i = 0; i < (int)(sizeof(codecs) / sizeof(int)); i++ ) if ( codecs[i] & formats ) return codecs[i]; return 0; } static void iaxc_handle_connect(struct iax_event * e) { #ifdef USE_VIDEO int video_format_capability; int video_format_preferred; #endif int video_format = 0; int format = 0; int callno; callno = iaxc_first_free_call(); if ( callno < 0 ) { iaxci_usermsg(IAXC_STATUS, "%i \n Incoming Call, but no appearances", callno); // XXX Reject this call!, or just ignore? //iax_reject(e->session, "Too many calls, we're busy!"); iax_accept(e->session, audio_format_preferred & e->ies.capability); iax_busy(e->session); return; } /* negotiate codec */ /* first, try _their_ preferred format */ format = audio_format_capability & e->ies.format; if ( !format ) { /* then, try our preferred format */ format = audio_format_preferred & e->ies.capability; } if ( !format ) { /* finally, see if we have one in common */ format = audio_format_capability & e->ies.capability; /* now choose amongst these, if we got one */ if ( format ) { format = iaxc_choose_codec(format); } } if ( !format ) { iax_reject(e->session, "Could not negotiate common codec"); return; } #ifdef USE_VIDEO iaxc_video_format_get_cap(&video_format_preferred, &video_format_capability); /* first, see if they even want video */ video_format = (e->ies.format & IAXC_VIDEO_FORMAT_MASK); if ( video_format ) { /* next, try _their_ preferred format */ video_format &= video_format_capability; if ( !video_format ) { /* then, try our preferred format */ video_format = video_format_preferred & (e->ies.capability & IAXC_VIDEO_FORMAT_MASK); } if ( !video_format ) { /* finally, see if we have one in common */ video_format = video_format_capability & (e->ies.capability & IAXC_VIDEO_FORMAT_MASK); /* now choose amongst these, if we got one */ if ( video_format ) { video_format = iaxc_choose_codec(video_format); } } /* All video negotiations failed, then warn */ if ( !video_format ) { iaxci_usermsg(IAXC_NOTICE, "Notice: could not negotiate common video codec"); iaxci_usermsg(IAXC_NOTICE, "Notice: switching to audio-only call"); } } #endif /* USE_VIDEO */ calls[callno].vformat = video_format; calls[callno].format = format; if ( e->ies.called_number ) strncpy(calls[callno].local, e->ies.called_number, IAXC_EVENT_BUFSIZ); else strncpy(calls[callno].local, "unknown", IAXC_EVENT_BUFSIZ); if ( e->ies.called_context ) strncpy(calls[callno].local_context, e->ies.called_context, IAXC_EVENT_BUFSIZ); else strncpy(calls[callno].local_context, "", IAXC_EVENT_BUFSIZ); if ( e->ies.calling_number ) strncpy(calls[callno].remote, e->ies.calling_number, IAXC_EVENT_BUFSIZ); else strncpy(calls[callno].remote, "unknown", IAXC_EVENT_BUFSIZ); if ( e->ies.calling_name ) strncpy(calls[callno].remote_name, e->ies.calling_name, IAXC_EVENT_BUFSIZ); else strncpy(calls[callno].remote_name, "unknown", IAXC_EVENT_BUFSIZ); iaxc_note_activity(callno); iaxci_usermsg(IAXC_STATUS, "Call from (%s)", calls[callno].remote); codec_destroy( callno ); calls[callno].session = e->session; calls[callno].state = IAXC_CALL_STATE_ACTIVE|IAXC_CALL_STATE_RINGING; iax_accept(calls[callno].session, format | video_format); iax_ring_announce(calls[callno].session); iaxci_do_state_callback(callno); iaxci_usermsg(IAXC_STATUS, "Incoming call on line %d", callno); } static void service_network() { struct iax_event *e = 0; int callNo; struct iaxc_registration *reg; while ( (e = iax_get_event(0)) ) { #ifdef WIN32 iaxc_millisleep(0); //fd: #endif // first, see if this is an event for one of our calls. callNo = iaxc_find_call_by_session(e->session); if ( e->etype == IAX_EVENT_NULL ) { // Should we do something here? // Right now we do nothing, just go with the flow // and let the event be deallocated. } else if ( callNo >= 0 ) { iaxc_handle_network_event(e, callNo); } else if ( (reg = iaxc_find_registration_by_session(e->session)) != NULL ) { iaxc_handle_regreply(e,reg); } else if ( e->etype == IAX_EVENT_REGACK || e->etype == IAX_EVENT_REGREJ ) { iaxci_usermsg(IAXC_ERROR, "Unexpected registration reply"); } else if ( e->etype == IAX_EVENT_REGREQ ) { iaxci_usermsg(IAXC_ERROR, "Registration requested by someone, but we don't understand!"); } else if ( e->etype == IAX_EVENT_CONNECT ) { iaxc_handle_connect(e); } else if ( e->etype == IAX_EVENT_TIMEOUT ) { iaxci_usermsg(IAXC_STATUS, "Timeout for a non-existant session. Dropping", e->etype); } else { iaxci_usermsg(IAXC_ERROR, "Event (type %d) for a non-existant session. Dropping", e->etype); } iax_event_free(e); } } EXPORT int iaxc_audio_devices_get(struct iaxc_audio_device **devs, int *nDevs, int *input, int *output, int *ring) { if ( test_mode ) return 0; *devs = audio_driver.devices; *nDevs = audio_driver.nDevices; audio_driver.selected_devices(&audio_driver, input, output, ring); return 0; } EXPORT int iaxc_audio_devices_set(int input, int output, int ring) { int ret; if ( test_mode ) return 0; get_iaxc_lock(); ret = audio_driver.select_devices(&audio_driver, input, output, ring); put_iaxc_lock(); return ret; } EXPORT float iaxc_input_level_get() { if ( test_mode ) return 0; return audio_driver.input_level_get(&audio_driver); } EXPORT float iaxc_output_level_get() { if ( test_mode ) return 0; return audio_driver.output_level_get(&audio_driver); } EXPORT int iaxc_input_level_set(float level) { if ( test_mode ) return 0; return audio_driver.input_level_set(&audio_driver, level); } EXPORT int iaxc_output_level_set(float level) { if ( test_mode ) return 0; return audio_driver.output_level_set(&audio_driver, level); } EXPORT int iaxc_play_sound(struct iaxc_sound *s, int ring) { int ret; if ( test_mode ) return 0; get_iaxc_lock(); ret = audio_driver.play_sound(s,ring); put_iaxc_lock(); return ret; } EXPORT int iaxc_stop_sound(int id) { int ret; if ( test_mode ) return 0; get_iaxc_lock(); ret = audio_driver.stop_sound(id); put_iaxc_lock(); return ret; } EXPORT int iaxc_quelch(int callNo, int MOH) { struct iax_session *session = calls[callNo].session; if ( !session ) return -1; return iax_quelch_moh(session, MOH); } EXPORT int iaxc_unquelch(int call) { return iax_unquelch(calls[call].session); } EXPORT int iaxc_mic_boost_get( void ) { return audio_driver.mic_boost_get( &audio_driver ) ; } EXPORT int iaxc_mic_boost_set( int enable ) { return audio_driver.mic_boost_set( &audio_driver, enable ) ; } EXPORT char* iaxc_version(char * ver) { #ifndef LIBVER #define LIBVER "" #endif strncpy(ver, LIBVER, IAXC_EVENT_BUFSIZ); return ver; } EXPORT unsigned int iaxc_get_audio_prefs(void) { return audio_prefs; } EXPORT int iaxc_set_audio_prefs(unsigned int prefs) { unsigned int prefs_mask = IAXC_AUDIO_PREF_RECV_LOCAL_RAW | IAXC_AUDIO_PREF_RECV_LOCAL_ENCODED | IAXC_AUDIO_PREF_RECV_REMOTE_RAW | IAXC_AUDIO_PREF_RECV_REMOTE_ENCODED | IAXC_AUDIO_PREF_SEND_DISABLE; if ( prefs & ~prefs_mask ) return -1; audio_prefs = prefs; return 0; } EXPORT void iaxc_set_test_mode(int tm) { test_mode = tm; } EXPORT int iaxc_push_audio(void *data, unsigned int size, unsigned int samples) { struct iaxc_call *call; if ( selected_call < 0 ) return -1; call = &calls[selected_call]; if ( audio_prefs & IAXC_AUDIO_PREF_SEND_DISABLE ) return 0; //fprintf(stderr, "iaxc_push_audio: sending audio size %d\n", size); if ( iax_send_voice(call->session, call->format, data, size, samples) == -1 ) { fprintf(stderr, "iaxc_push_audio: failed to send audio frame of size %d on call %d\n", size, selected_call); return -1; } return 0; } void iaxc_debug_iax_set(int enable) { #ifdef DEBUG_SUPPORT if (enable) iax_enable_debug(); else iax_disable_debug(); #endif }