/* * Get statistics */ PJ_DEF(pj_status_t) pjmedia_session_get_stream_stat( pjmedia_session *session, unsigned index, pjmedia_rtcp_stat *stat) { PJ_ASSERT_RETURN(session && stat && index < session->stream_cnt, PJ_EINVAL); return pjmedia_stream_get_stat(session->stream[index], stat); }
/* Dump media session */ static void dump_media_session(const char *indent, char *buf, unsigned maxlen, pjsua_call *call) { unsigned i; char *p = buf, *end = buf+maxlen; int len; for (i=0; i<call->med_cnt; ++i) { pjsua_call_media *call_med = &call->media[i]; pjmedia_rtcp_stat stat; pj_bool_t has_stat; pjmedia_transport_info tp_info; char rem_addr_buf[80]; char codec_info[32] = {'0'}; char rx_info[80] = {'\0'}; char tx_info[80] = {'\0'}; const char *rem_addr; const char *dir_str; const char *media_type_str; switch (call_med->type) { case PJMEDIA_TYPE_AUDIO: media_type_str = "audio"; break; case PJMEDIA_TYPE_VIDEO: media_type_str = "video"; break; case PJMEDIA_TYPE_APPLICATION: media_type_str = "application"; break; default: media_type_str = "unknown"; break; } /* Check if the stream is deactivated */ if (call_med->tp == NULL || (!call_med->strm.a.stream && !call_med->strm.v.stream)) { len = pj_ansi_snprintf(p, end-p, "%s #%d %s deactivated\n", indent, i, media_type_str); if (len < 1 || len > end-p) { *p = '\0'; return; } p += len; continue; } pjmedia_transport_info_init(&tp_info); pjmedia_transport_get_info(call_med->tp, &tp_info); // rem_addr will contain actual address of RTP originator, instead of // remote RTP address specified by stream which is fetched from the SDP. // Please note that we are assuming only one stream per call. //rem_addr = pj_sockaddr_print(&info.stream_info[i].rem_addr, // rem_addr_buf, sizeof(rem_addr_buf), 3); if (pj_sockaddr_has_addr(&tp_info.src_rtp_name)) { rem_addr = pj_sockaddr_print(&tp_info.src_rtp_name, rem_addr_buf, sizeof(rem_addr_buf), 3); } else { pj_ansi_snprintf(rem_addr_buf, sizeof(rem_addr_buf), "-"); rem_addr = rem_addr_buf; } if (call_med->dir == PJMEDIA_DIR_NONE) { /* To handle when the stream that is currently being paused * (http://trac.pjsip.org/repos/ticket/1079) */ dir_str = "inactive"; } else if (call_med->dir == PJMEDIA_DIR_ENCODING) dir_str = "sendonly"; else if (call_med->dir == PJMEDIA_DIR_DECODING) dir_str = "recvonly"; else if (call_med->dir == PJMEDIA_DIR_ENCODING_DECODING) dir_str = "sendrecv"; else dir_str = "inactive"; if (call_med->type == PJMEDIA_TYPE_AUDIO) { pjmedia_stream *stream = call_med->strm.a.stream; pjmedia_stream_info info; pjmedia_stream_get_stat(stream, &stat); has_stat = PJ_TRUE; pjmedia_stream_get_info(stream, &info); pj_ansi_snprintf(codec_info, sizeof(codec_info), " %.*s @%dkHz", (int)info.fmt.encoding_name.slen, info.fmt.encoding_name.ptr, info.fmt.clock_rate / 1000); pj_ansi_snprintf(rx_info, sizeof(rx_info), "pt=%d,", info.rx_pt); pj_ansi_snprintf(tx_info, sizeof(tx_info), "pt=%d, ptime=%d,", info.tx_pt, info.param->setting.frm_per_pkt* info.param->info.frm_ptime); #if defined(PJMEDIA_HAS_VIDEO) && (PJMEDIA_HAS_VIDEO != 0) } else if (call_med->type == PJMEDIA_TYPE_VIDEO) { pjmedia_vid_stream *stream = call_med->strm.v.stream; pjmedia_vid_stream_info info; pjmedia_vid_stream_get_stat(stream, &stat); has_stat = PJ_TRUE; pjmedia_vid_stream_get_info(stream, &info); pj_ansi_snprintf(codec_info, sizeof(codec_info), " %.*s", (int)info.codec_info.encoding_name.slen, info.codec_info.encoding_name.ptr); if (call_med->dir & PJMEDIA_DIR_DECODING) { pjmedia_video_format_detail *vfd; vfd = pjmedia_format_get_video_format_detail( &info.codec_param->dec_fmt, PJ_TRUE); pj_ansi_snprintf(rx_info, sizeof(rx_info), "pt=%d, size=%dx%d, fps=%.2f,", info.rx_pt, vfd->size.w, vfd->size.h, vfd->fps.num*1.0/vfd->fps.denum); } if (call_med->dir & PJMEDIA_DIR_ENCODING) { pjmedia_video_format_detail *vfd; vfd = pjmedia_format_get_video_format_detail( &info.codec_param->enc_fmt, PJ_TRUE); pj_ansi_snprintf(tx_info, sizeof(tx_info), "pt=%d, size=%dx%d, fps=%.2f,", info.tx_pt, vfd->size.w, vfd->size.h, vfd->fps.num*1.0/vfd->fps.denum); } #endif /* PJMEDIA_HAS_VIDEO */ } else { has_stat = PJ_FALSE; } len = pj_ansi_snprintf(p, end-p, "%s #%d %s%s, %s, peer=%s\n", indent, call_med->idx, media_type_str, codec_info, dir_str, rem_addr); if (len < 1 || len > end-p) { *p = '\0'; return; } p += len; /* Get and ICE SRTP status */ if (call_med->tp) { pjmedia_transport_info tp_info; pjmedia_transport_info_init(&tp_info); pjmedia_transport_get_info(call_med->tp, &tp_info); if (tp_info.specific_info_cnt > 0) { unsigned j; for (j = 0; j < tp_info.specific_info_cnt; ++j) { if (tp_info.spc_info[j].type == PJMEDIA_TRANSPORT_TYPE_SRTP) { pjmedia_srtp_info *srtp_info = (pjmedia_srtp_info*) tp_info.spc_info[j].buffer; len = pj_ansi_snprintf(p, end-p, " %s SRTP status: %s Crypto-suite: %s", indent, (srtp_info->active?"Active":"Not active"), srtp_info->tx_policy.name.ptr); if (len > 0 && len < end-p) { p += len; *p++ = '\n'; *p = '\0'; } } else if (tp_info.spc_info[j].type==PJMEDIA_TRANSPORT_TYPE_ICE) { const pjmedia_ice_transport_info *ii; unsigned jj; ii = (const pjmedia_ice_transport_info*) tp_info.spc_info[j].buffer; len = pj_ansi_snprintf(p, end-p, " %s ICE role: %s, state: %s, comp_cnt: %u", indent, pj_ice_sess_role_name(ii->role), pj_ice_strans_state_name(ii->sess_state), ii->comp_cnt); if (len > 0 && len < end-p) { p += len; *p++ = '\n'; *p = '\0'; } for (jj=0; ii->sess_state==PJ_ICE_STRANS_STATE_RUNNING && jj<2; ++jj) { const char *type1 = pj_ice_get_cand_type_name(ii->comp[jj].lcand_type); const char *type2 = pj_ice_get_cand_type_name(ii->comp[jj].rcand_type); char addr1[PJ_INET6_ADDRSTRLEN+10]; char addr2[PJ_INET6_ADDRSTRLEN+10]; if (pj_sockaddr_has_addr(&ii->comp[jj].lcand_addr)) pj_sockaddr_print(&ii->comp[jj].lcand_addr, addr1, sizeof(addr1), 3); else strcpy(addr1, "0.0.0.0:0"); if (pj_sockaddr_has_addr(&ii->comp[jj].rcand_addr)) pj_sockaddr_print(&ii->comp[jj].rcand_addr, addr2, sizeof(addr2), 3); else strcpy(addr2, "0.0.0.0:0"); len = pj_ansi_snprintf(p, end-p, " %s [%d]: L:%s (%c) --> R:%s (%c)\n", indent, jj, addr1, type1[0], addr2, type2[0]); if (len > 0 && len < end-p) { p += len; *p = '\0'; } } } } } } if (has_stat) { len = dump_media_stat(indent, p, end-p, &stat, rx_info, tx_info); p += len; } #if defined(PJMEDIA_HAS_RTCP_XR) && (PJMEDIA_HAS_RTCP_XR != 0) # define SAMPLES_TO_USEC(usec, samples, clock_rate) \ do { \ if (samples <= 4294) \ usec = samples * 1000000 / clock_rate; \ else { \ usec = samples * 1000 / clock_rate; \ usec *= 1000; \ } \ } while(0) # define PRINT_VOIP_MTC_VAL(s, v) \ if (v == 127) \ sprintf(s, "(na)"); \ else \ sprintf(s, "%d", v) # define VALIDATE_PRINT_BUF() \ if (len < 1 || len > end-p) { *p = '\0'; return; } \ p += len; *p++ = '\n'; *p = '\0' if (call_med->type == PJMEDIA_TYPE_AUDIO) { pjmedia_stream_info info; char last_update[64]; char loss[16], dup[16]; char jitter[80]; char toh[80]; char plc[16], jba[16], jbr[16]; char signal_lvl[16], noise_lvl[16], rerl[16]; char r_factor[16], ext_r_factor[16], mos_lq[16], mos_cq[16]; pjmedia_rtcp_xr_stat xr_stat; unsigned clock_rate; pj_time_val now; if (pjmedia_stream_get_stat_xr(call_med->strm.a.stream, &xr_stat) != PJ_SUCCESS) { continue; } if (pjmedia_stream_get_info(call_med->strm.a.stream, &info) != PJ_SUCCESS) { continue; } clock_rate = info.fmt.clock_rate; pj_gettimeofday(&now); len = pj_ansi_snprintf(p, end-p, "\n%s Extended reports:", indent); VALIDATE_PRINT_BUF(); /* Statistics Summary */ len = pj_ansi_snprintf(p, end-p, "%s Statistics Summary", indent); VALIDATE_PRINT_BUF(); if (xr_stat.rx.stat_sum.l) sprintf(loss, "%d", xr_stat.rx.stat_sum.lost); else sprintf(loss, "(na)"); if (xr_stat.rx.stat_sum.d) sprintf(dup, "%d", xr_stat.rx.stat_sum.dup); else sprintf(dup, "(na)"); if (xr_stat.rx.stat_sum.j) { unsigned jmin, jmax, jmean, jdev; SAMPLES_TO_USEC(jmin, xr_stat.rx.stat_sum.jitter.min, clock_rate); SAMPLES_TO_USEC(jmax, xr_stat.rx.stat_sum.jitter.max, clock_rate); SAMPLES_TO_USEC(jmean, xr_stat.rx.stat_sum.jitter.mean, clock_rate); SAMPLES_TO_USEC(jdev, pj_math_stat_get_stddev(&xr_stat.rx.stat_sum.jitter), clock_rate); sprintf(jitter, "%7.3f %7.3f %7.3f %7.3f", jmin/1000.0, jmean/1000.0, jmax/1000.0, jdev/1000.0); } else sprintf(jitter, "(report not available)"); if (xr_stat.rx.stat_sum.t) { sprintf(toh, "%11d %11d %11d %11d", xr_stat.rx.stat_sum.toh.min, xr_stat.rx.stat_sum.toh.mean, xr_stat.rx.stat_sum.toh.max, pj_math_stat_get_stddev(&xr_stat.rx.stat_sum.toh)); } else sprintf(toh, "(report not available)"); if (xr_stat.rx.stat_sum.update.sec == 0) strcpy(last_update, "never"); else { pj_gettimeofday(&now); PJ_TIME_VAL_SUB(now, xr_stat.rx.stat_sum.update); sprintf(last_update, "%02ldh:%02ldm:%02ld.%03lds ago", now.sec / 3600, (now.sec % 3600) / 60, now.sec % 60, now.msec); } len = pj_ansi_snprintf(p, end-p, "%s RX last update: %s\n" "%s begin seq=%d, end seq=%d\n" "%s pkt loss=%s, dup=%s\n" "%s (msec) min avg max dev\n" "%s jitter : %s\n" "%s toh : %s", indent, last_update, indent, xr_stat.rx.stat_sum.begin_seq, xr_stat.rx.stat_sum.end_seq, indent, loss, dup, indent, indent, jitter, indent, toh ); VALIDATE_PRINT_BUF(); if (xr_stat.tx.stat_sum.l) sprintf(loss, "%d", xr_stat.tx.stat_sum.lost); else sprintf(loss, "(na)"); if (xr_stat.tx.stat_sum.d) sprintf(dup, "%d", xr_stat.tx.stat_sum.dup); else sprintf(dup, "(na)"); if (xr_stat.tx.stat_sum.j) { unsigned jmin, jmax, jmean, jdev; SAMPLES_TO_USEC(jmin, xr_stat.tx.stat_sum.jitter.min, clock_rate); SAMPLES_TO_USEC(jmax, xr_stat.tx.stat_sum.jitter.max, clock_rate); SAMPLES_TO_USEC(jmean, xr_stat.tx.stat_sum.jitter.mean, clock_rate); SAMPLES_TO_USEC(jdev, pj_math_stat_get_stddev(&xr_stat.tx.stat_sum.jitter), clock_rate); sprintf(jitter, "%7.3f %7.3f %7.3f %7.3f", jmin/1000.0, jmean/1000.0, jmax/1000.0, jdev/1000.0); } else sprintf(jitter, "(report not available)"); if (xr_stat.tx.stat_sum.t) { sprintf(toh, "%11d %11d %11d %11d", xr_stat.tx.stat_sum.toh.min, xr_stat.tx.stat_sum.toh.mean, xr_stat.tx.stat_sum.toh.max, pj_math_stat_get_stddev(&xr_stat.rx.stat_sum.toh)); } else sprintf(toh, "(report not available)"); if (xr_stat.tx.stat_sum.update.sec == 0) strcpy(last_update, "never"); else { pj_gettimeofday(&now); PJ_TIME_VAL_SUB(now, xr_stat.tx.stat_sum.update); sprintf(last_update, "%02ldh:%02ldm:%02ld.%03lds ago", now.sec / 3600, (now.sec % 3600) / 60, now.sec % 60, now.msec); } len = pj_ansi_snprintf(p, end-p, "%s TX last update: %s\n" "%s begin seq=%d, end seq=%d\n" "%s pkt loss=%s, dup=%s\n" "%s (msec) min avg max dev\n" "%s jitter : %s\n" "%s toh : %s", indent, last_update, indent, xr_stat.tx.stat_sum.begin_seq, xr_stat.tx.stat_sum.end_seq, indent, loss, dup, indent, indent, jitter, indent, toh ); VALIDATE_PRINT_BUF(); /* VoIP Metrics */ len = pj_ansi_snprintf(p, end-p, "%s VoIP Metrics", indent); VALIDATE_PRINT_BUF(); PRINT_VOIP_MTC_VAL(signal_lvl, xr_stat.rx.voip_mtc.signal_lvl); PRINT_VOIP_MTC_VAL(noise_lvl, xr_stat.rx.voip_mtc.noise_lvl); PRINT_VOIP_MTC_VAL(rerl, xr_stat.rx.voip_mtc.rerl); PRINT_VOIP_MTC_VAL(r_factor, xr_stat.rx.voip_mtc.r_factor); PRINT_VOIP_MTC_VAL(ext_r_factor, xr_stat.rx.voip_mtc.ext_r_factor); PRINT_VOIP_MTC_VAL(mos_lq, xr_stat.rx.voip_mtc.mos_lq); PRINT_VOIP_MTC_VAL(mos_cq, xr_stat.rx.voip_mtc.mos_cq); switch ((xr_stat.rx.voip_mtc.rx_config>>6) & 3) { case PJMEDIA_RTCP_XR_PLC_DIS: sprintf(plc, "DISABLED"); break; case PJMEDIA_RTCP_XR_PLC_ENH: sprintf(plc, "ENHANCED"); break; case PJMEDIA_RTCP_XR_PLC_STD: sprintf(plc, "STANDARD"); break; case PJMEDIA_RTCP_XR_PLC_UNK: default: sprintf(plc, "UNKNOWN"); break; } switch ((xr_stat.rx.voip_mtc.rx_config>>4) & 3) { case PJMEDIA_RTCP_XR_JB_FIXED: sprintf(jba, "FIXED"); break; case PJMEDIA_RTCP_XR_JB_ADAPTIVE: sprintf(jba, "ADAPTIVE"); break; default: sprintf(jba, "UNKNOWN"); break; } sprintf(jbr, "%d", xr_stat.rx.voip_mtc.rx_config & 0x0F); if (xr_stat.rx.voip_mtc.update.sec == 0) strcpy(last_update, "never"); else { pj_gettimeofday(&now); PJ_TIME_VAL_SUB(now, xr_stat.rx.voip_mtc.update); sprintf(last_update, "%02ldh:%02ldm:%02ld.%03lds ago", now.sec / 3600, (now.sec % 3600) / 60, now.sec % 60, now.msec); } len = pj_ansi_snprintf(p, end-p, "%s RX last update: %s\n" "%s packets : loss rate=%d (%.2f%%), discard rate=%d (%.2f%%)\n" "%s burst : density=%d (%.2f%%), duration=%d%s\n" "%s gap : density=%d (%.2f%%), duration=%d%s\n" "%s delay : round trip=%d%s, end system=%d%s\n" "%s level : signal=%s%s, noise=%s%s, RERL=%s%s\n" "%s quality : R factor=%s, ext R factor=%s\n" "%s MOS LQ=%s, MOS CQ=%s\n" "%s config : PLC=%s, JB=%s, JB rate=%s, Gmin=%d\n" "%s JB delay : cur=%d%s, max=%d%s, abs max=%d%s", indent, last_update, /* packets */ indent, xr_stat.rx.voip_mtc.loss_rate, xr_stat.rx.voip_mtc.loss_rate*100.0/256, xr_stat.rx.voip_mtc.discard_rate, xr_stat.rx.voip_mtc.discard_rate*100.0/256, /* burst */ indent, xr_stat.rx.voip_mtc.burst_den, xr_stat.rx.voip_mtc.burst_den*100.0/256, xr_stat.rx.voip_mtc.burst_dur, "ms", /* gap */ indent, xr_stat.rx.voip_mtc.gap_den, xr_stat.rx.voip_mtc.gap_den*100.0/256, xr_stat.rx.voip_mtc.gap_dur, "ms", /* delay */ indent, xr_stat.rx.voip_mtc.rnd_trip_delay, "ms", xr_stat.rx.voip_mtc.end_sys_delay, "ms", /* level */ indent, signal_lvl, "dB", noise_lvl, "dB", rerl, "", /* quality */ indent, r_factor, ext_r_factor, indent, mos_lq, mos_cq, /* config */ indent, plc, jba, jbr, xr_stat.rx.voip_mtc.gmin, /* JB delay */ indent, xr_stat.rx.voip_mtc.jb_nom, "ms", xr_stat.rx.voip_mtc.jb_max, "ms", xr_stat.rx.voip_mtc.jb_abs_max, "ms" ); VALIDATE_PRINT_BUF(); PRINT_VOIP_MTC_VAL(signal_lvl, xr_stat.tx.voip_mtc.signal_lvl); PRINT_VOIP_MTC_VAL(noise_lvl, xr_stat.tx.voip_mtc.noise_lvl); PRINT_VOIP_MTC_VAL(rerl, xr_stat.tx.voip_mtc.rerl); PRINT_VOIP_MTC_VAL(r_factor, xr_stat.tx.voip_mtc.r_factor); PRINT_VOIP_MTC_VAL(ext_r_factor, xr_stat.tx.voip_mtc.ext_r_factor); PRINT_VOIP_MTC_VAL(mos_lq, xr_stat.tx.voip_mtc.mos_lq); PRINT_VOIP_MTC_VAL(mos_cq, xr_stat.tx.voip_mtc.mos_cq); switch ((xr_stat.tx.voip_mtc.rx_config>>6) & 3) { case PJMEDIA_RTCP_XR_PLC_DIS: sprintf(plc, "DISABLED"); break; case PJMEDIA_RTCP_XR_PLC_ENH: sprintf(plc, "ENHANCED"); break; case PJMEDIA_RTCP_XR_PLC_STD: sprintf(plc, "STANDARD"); break; case PJMEDIA_RTCP_XR_PLC_UNK: default: sprintf(plc, "unknown"); break; } switch ((xr_stat.tx.voip_mtc.rx_config>>4) & 3) { case PJMEDIA_RTCP_XR_JB_FIXED: sprintf(jba, "FIXED"); break; case PJMEDIA_RTCP_XR_JB_ADAPTIVE: sprintf(jba, "ADAPTIVE"); break; default: sprintf(jba, "unknown"); break; } sprintf(jbr, "%d", xr_stat.tx.voip_mtc.rx_config & 0x0F); if (xr_stat.tx.voip_mtc.update.sec == 0) strcpy(last_update, "never"); else { pj_gettimeofday(&now); PJ_TIME_VAL_SUB(now, xr_stat.tx.voip_mtc.update); sprintf(last_update, "%02ldh:%02ldm:%02ld.%03lds ago", now.sec / 3600, (now.sec % 3600) / 60, now.sec % 60, now.msec); } len = pj_ansi_snprintf(p, end-p, "%s TX last update: %s\n" "%s packets : loss rate=%d (%.2f%%), discard rate=%d (%.2f%%)\n" "%s burst : density=%d (%.2f%%), duration=%d%s\n" "%s gap : density=%d (%.2f%%), duration=%d%s\n" "%s delay : round trip=%d%s, end system=%d%s\n" "%s level : signal=%s%s, noise=%s%s, RERL=%s%s\n" "%s quality : R factor=%s, ext R factor=%s\n" "%s MOS LQ=%s, MOS CQ=%s\n" "%s config : PLC=%s, JB=%s, JB rate=%s, Gmin=%d\n" "%s JB delay : cur=%d%s, max=%d%s, abs max=%d%s", indent, last_update, /* pakcets */ indent, xr_stat.tx.voip_mtc.loss_rate, xr_stat.tx.voip_mtc.loss_rate*100.0/256, xr_stat.tx.voip_mtc.discard_rate, xr_stat.tx.voip_mtc.discard_rate*100.0/256, /* burst */ indent, xr_stat.tx.voip_mtc.burst_den, xr_stat.tx.voip_mtc.burst_den*100.0/256, xr_stat.tx.voip_mtc.burst_dur, "ms", /* gap */ indent, xr_stat.tx.voip_mtc.gap_den, xr_stat.tx.voip_mtc.gap_den*100.0/256, xr_stat.tx.voip_mtc.gap_dur, "ms", /* delay */ indent, xr_stat.tx.voip_mtc.rnd_trip_delay, "ms", xr_stat.tx.voip_mtc.end_sys_delay, "ms", /* level */ indent, signal_lvl, "dB", noise_lvl, "dB", rerl, "", /* quality */ indent, r_factor, ext_r_factor, indent, mos_lq, mos_cq, /* config */ indent, plc, jba, jbr, xr_stat.tx.voip_mtc.gmin, /* JB delay */ indent, xr_stat.tx.voip_mtc.jb_nom, "ms", xr_stat.tx.voip_mtc.jb_max, "ms", xr_stat.tx.voip_mtc.jb_abs_max, "ms" ); VALIDATE_PRINT_BUF(); /* RTT delay (by receiver side) */ len = pj_ansi_snprintf(p, end-p, "%s RTT (from recv) min avg max last dev", indent); VALIDATE_PRINT_BUF(); len = pj_ansi_snprintf(p, end-p, "%s RTT msec : %7.3f %7.3f %7.3f %7.3f %7.3f", indent, xr_stat.rtt.min / 1000.0, xr_stat.rtt.mean / 1000.0, xr_stat.rtt.max / 1000.0, xr_stat.rtt.last / 1000.0, pj_math_stat_get_stddev(&xr_stat.rtt) / 1000.0 ); VALIDATE_PRINT_BUF(); } /* if audio */; #endif }
/* * Print stream statistics */ static void print_stream_stat(pjmedia_stream *stream, const pjmedia_codec_param *codec_param) { char duration[80], last_update[80]; char bps[16], ipbps[16], packets[16], bytes[16], ipbytes[16]; pjmedia_port *port; pjmedia_rtcp_stat stat; pj_time_val now; pj_gettimeofday(&now); pjmedia_stream_get_stat(stream, &stat); pjmedia_stream_get_port(stream, &port); puts("Stream statistics:"); /* Print duration */ PJ_TIME_VAL_SUB(now, stat.start); sprintf(duration, " Duration: %02ld:%02ld:%02ld.%03ld", now.sec / 3600, (now.sec % 3600) / 60, (now.sec % 60), now.msec); printf(" Info: audio %dHz, %dms/frame, %sB/s (%sB/s +IP hdr)\n", PJMEDIA_PIA_SRATE(&port->info), PJMEDIA_PIA_PTIME(&port->info), good_number(bps, (codec_param->info.avg_bps+7)/8), good_number(ipbps, ((codec_param->info.avg_bps+7)/8) + (40 * 1000 / codec_param->setting.frm_per_pkt / codec_param->info.frm_ptime))); if (stat.rx.update_cnt == 0) strcpy(last_update, "never"); else { pj_gettimeofday(&now); PJ_TIME_VAL_SUB(now, stat.rx.update); sprintf(last_update, "%02ldh:%02ldm:%02ld.%03lds ago", now.sec / 3600, (now.sec % 3600) / 60, now.sec % 60, now.msec); } printf(" RX stat last update: %s\n" " total %s packets %sB received (%sB +IP hdr)%s\n" " pkt loss=%d (%3.1f%%), dup=%d (%3.1f%%), reorder=%d (%3.1f%%)%s\n" " (msec) min avg max last dev\n" " loss period: %7.3f %7.3f %7.3f %7.3f %7.3f%s\n" " jitter : %7.3f %7.3f %7.3f %7.3f %7.3f%s\n", last_update, good_number(packets, stat.rx.pkt), good_number(bytes, stat.rx.bytes), good_number(ipbytes, stat.rx.bytes + stat.rx.pkt * 32), "", stat.rx.loss, stat.rx.loss * 100.0 / (stat.rx.pkt + stat.rx.loss), stat.rx.dup, stat.rx.dup * 100.0 / (stat.rx.pkt + stat.rx.loss), stat.rx.reorder, stat.rx.reorder * 100.0 / (stat.rx.pkt + stat.rx.loss), "", stat.rx.loss_period.min / 1000.0, stat.rx.loss_period.mean / 1000.0, stat.rx.loss_period.max / 1000.0, stat.rx.loss_period.last / 1000.0, pj_math_stat_get_stddev(&stat.rx.loss_period) / 1000.0, "", stat.rx.jitter.min / 1000.0, stat.rx.jitter.mean / 1000.0, stat.rx.jitter.max / 1000.0, stat.rx.jitter.last / 1000.0, pj_math_stat_get_stddev(&stat.rx.jitter) / 1000.0, "" ); if (stat.tx.update_cnt == 0) strcpy(last_update, "never"); else { pj_gettimeofday(&now); PJ_TIME_VAL_SUB(now, stat.tx.update); sprintf(last_update, "%02ldh:%02ldm:%02ld.%03lds ago", now.sec / 3600, (now.sec % 3600) / 60, now.sec % 60, now.msec); } printf(" TX stat last update: %s\n" " total %s packets %sB sent (%sB +IP hdr)%s\n" " pkt loss=%d (%3.1f%%), dup=%d (%3.1f%%), reorder=%d (%3.1f%%)%s\n" " (msec) min avg max last dev\n" " loss period: %7.3f %7.3f %7.3f %7.3f %7.3f%s\n" " jitter : %7.3f %7.3f %7.3f %7.3f %7.3f%s\n", last_update, good_number(packets, stat.tx.pkt), good_number(bytes, stat.tx.bytes), good_number(ipbytes, stat.tx.bytes + stat.tx.pkt * 32), "", stat.tx.loss, stat.tx.loss * 100.0 / (stat.tx.pkt + stat.tx.loss), stat.tx.dup, stat.tx.dup * 100.0 / (stat.tx.pkt + stat.tx.loss), stat.tx.reorder, stat.tx.reorder * 100.0 / (stat.tx.pkt + stat.tx.loss), "", stat.tx.loss_period.min / 1000.0, stat.tx.loss_period.mean / 1000.0, stat.tx.loss_period.max / 1000.0, stat.tx.loss_period.last / 1000.0, pj_math_stat_get_stddev(&stat.tx.loss_period) / 1000.0, "", stat.tx.jitter.min / 1000.0, stat.tx.jitter.mean / 1000.0, stat.tx.jitter.max / 1000.0, stat.tx.jitter.last / 1000.0, pj_math_stat_get_stddev(&stat.tx.jitter) / 1000.0, "" ); printf(" RTT delay : %7.3f %7.3f %7.3f %7.3f %7.3f%s\n", stat.rtt.min / 1000.0, stat.rtt.mean / 1000.0, stat.rtt.max / 1000.0, stat.rtt.last / 1000.0, pj_math_stat_get_stddev(&stat.rtt) / 1000.0, "" ); #if defined(PJMEDIA_HAS_RTCP_XR) && (PJMEDIA_HAS_RTCP_XR != 0) /* RTCP XR Reports */ do { char loss[16], dup[16]; char jitter[80]; char toh[80]; char plc[16], jba[16], jbr[16]; char signal_lvl[16], noise_lvl[16], rerl[16]; char r_factor[16], ext_r_factor[16], mos_lq[16], mos_cq[16]; pjmedia_rtcp_xr_stat xr_stat; if (pjmedia_stream_get_stat_xr(stream, &xr_stat) != PJ_SUCCESS) break; puts("\nExtended reports:"); /* Statistics Summary */ puts(" Statistics Summary"); if (xr_stat.rx.stat_sum.l) sprintf(loss, "%d", xr_stat.rx.stat_sum.lost); else sprintf(loss, "(na)"); if (xr_stat.rx.stat_sum.d) sprintf(dup, "%d", xr_stat.rx.stat_sum.dup); else sprintf(dup, "(na)"); if (xr_stat.rx.stat_sum.j) { unsigned jmin, jmax, jmean, jdev; SAMPLES_TO_USEC(jmin, xr_stat.rx.stat_sum.jitter.min, port->info.fmt.det.aud.clock_rate); SAMPLES_TO_USEC(jmax, xr_stat.rx.stat_sum.jitter.max, port->info.fmt.det.aud.clock_rate); SAMPLES_TO_USEC(jmean, xr_stat.rx.stat_sum.jitter.mean, port->info.fmt.det.aud.clock_rate); SAMPLES_TO_USEC(jdev, pj_math_stat_get_stddev(&xr_stat.rx.stat_sum.jitter), port->info.fmt.det.aud.clock_rate); sprintf(jitter, "%7.3f %7.3f %7.3f %7.3f", jmin/1000.0, jmean/1000.0, jmax/1000.0, jdev/1000.0); } else sprintf(jitter, "(report not available)"); if (xr_stat.rx.stat_sum.t) { sprintf(toh, "%11d %11d %11d %11d", xr_stat.rx.stat_sum.toh.min, xr_stat.rx.stat_sum.toh.mean, xr_stat.rx.stat_sum.toh.max, pj_math_stat_get_stddev(&xr_stat.rx.stat_sum.toh)); } else sprintf(toh, "(report not available)"); if (xr_stat.rx.stat_sum.update.sec == 0) strcpy(last_update, "never"); else { pj_gettimeofday(&now); PJ_TIME_VAL_SUB(now, xr_stat.rx.stat_sum.update); sprintf(last_update, "%02ldh:%02ldm:%02ld.%03lds ago", now.sec / 3600, (now.sec % 3600) / 60, now.sec % 60, now.msec); } printf(" RX last update: %s\n" " begin seq=%d, end seq=%d%s\n" " pkt loss=%s, dup=%s%s\n" " (msec) min avg max dev\n" " jitter : %s\n" " toh : %s\n", last_update, xr_stat.rx.stat_sum.begin_seq, xr_stat.rx.stat_sum.end_seq, "", loss, dup, "", jitter, toh ); if (xr_stat.tx.stat_sum.l) sprintf(loss, "%d", xr_stat.tx.stat_sum.lost); else sprintf(loss, "(na)"); if (xr_stat.tx.stat_sum.d) sprintf(dup, "%d", xr_stat.tx.stat_sum.dup); else sprintf(dup, "(na)"); if (xr_stat.tx.stat_sum.j) { unsigned jmin, jmax, jmean, jdev; SAMPLES_TO_USEC(jmin, xr_stat.tx.stat_sum.jitter.min, port->info.fmt.det.aud.clock_rate); SAMPLES_TO_USEC(jmax, xr_stat.tx.stat_sum.jitter.max, port->info.fmt.det.aud.clock_rate); SAMPLES_TO_USEC(jmean, xr_stat.tx.stat_sum.jitter.mean, port->info.fmt.det.aud.clock_rate); SAMPLES_TO_USEC(jdev, pj_math_stat_get_stddev(&xr_stat.tx.stat_sum.jitter), port->info.fmt.det.aud.clock_rate); sprintf(jitter, "%7.3f %7.3f %7.3f %7.3f", jmin/1000.0, jmean/1000.0, jmax/1000.0, jdev/1000.0); } else sprintf(jitter, "(report not available)"); if (xr_stat.tx.stat_sum.t) { sprintf(toh, "%11d %11d %11d %11d", xr_stat.tx.stat_sum.toh.min, xr_stat.tx.stat_sum.toh.mean, xr_stat.tx.stat_sum.toh.max, pj_math_stat_get_stddev(&xr_stat.rx.stat_sum.toh)); } else sprintf(toh, "(report not available)"); if (xr_stat.tx.stat_sum.update.sec == 0) strcpy(last_update, "never"); else { pj_gettimeofday(&now); PJ_TIME_VAL_SUB(now, xr_stat.tx.stat_sum.update); sprintf(last_update, "%02ldh:%02ldm:%02ld.%03lds ago", now.sec / 3600, (now.sec % 3600) / 60, now.sec % 60, now.msec); } printf(" TX last update: %s\n" " begin seq=%d, end seq=%d%s\n" " pkt loss=%s, dup=%s%s\n" " (msec) min avg max dev\n" " jitter : %s\n" " toh : %s\n", last_update, xr_stat.tx.stat_sum.begin_seq, xr_stat.tx.stat_sum.end_seq, "", loss, dup, "", jitter, toh ); /* VoIP Metrics */ puts(" VoIP Metrics"); PRINT_VOIP_MTC_VAL(signal_lvl, xr_stat.rx.voip_mtc.signal_lvl); PRINT_VOIP_MTC_VAL(noise_lvl, xr_stat.rx.voip_mtc.noise_lvl); PRINT_VOIP_MTC_VAL(rerl, xr_stat.rx.voip_mtc.rerl); PRINT_VOIP_MTC_VAL(r_factor, xr_stat.rx.voip_mtc.r_factor); PRINT_VOIP_MTC_VAL(ext_r_factor, xr_stat.rx.voip_mtc.ext_r_factor); PRINT_VOIP_MTC_VAL(mos_lq, xr_stat.rx.voip_mtc.mos_lq); PRINT_VOIP_MTC_VAL(mos_cq, xr_stat.rx.voip_mtc.mos_cq); switch ((xr_stat.rx.voip_mtc.rx_config>>6) & 3) { case PJMEDIA_RTCP_XR_PLC_DIS: sprintf(plc, "DISABLED"); break; case PJMEDIA_RTCP_XR_PLC_ENH: sprintf(plc, "ENHANCED"); break; case PJMEDIA_RTCP_XR_PLC_STD: sprintf(plc, "STANDARD"); break; case PJMEDIA_RTCP_XR_PLC_UNK: default: sprintf(plc, "UNKNOWN"); break; } switch ((xr_stat.rx.voip_mtc.rx_config>>4) & 3) { case PJMEDIA_RTCP_XR_JB_FIXED: sprintf(jba, "FIXED"); break; case PJMEDIA_RTCP_XR_JB_ADAPTIVE: sprintf(jba, "ADAPTIVE"); break; default: sprintf(jba, "UNKNOWN"); break; } sprintf(jbr, "%d", xr_stat.rx.voip_mtc.rx_config & 0x0F); if (xr_stat.rx.voip_mtc.update.sec == 0) strcpy(last_update, "never"); else { pj_gettimeofday(&now); PJ_TIME_VAL_SUB(now, xr_stat.rx.voip_mtc.update); sprintf(last_update, "%02ldh:%02ldm:%02ld.%03lds ago", now.sec / 3600, (now.sec % 3600) / 60, now.sec % 60, now.msec); } printf(" RX last update: %s\n" " packets : loss rate=%d (%.2f%%), discard rate=%d (%.2f%%)\n" " burst : density=%d (%.2f%%), duration=%d%s\n" " gap : density=%d (%.2f%%), duration=%d%s\n" " delay : round trip=%d%s, end system=%d%s\n" " level : signal=%s%s, noise=%s%s, RERL=%s%s\n" " quality : R factor=%s, ext R factor=%s\n" " MOS LQ=%s, MOS CQ=%s\n" " config : PLC=%s, JB=%s, JB rate=%s, Gmin=%d\n" " JB delay : cur=%d%s, max=%d%s, abs max=%d%s\n", last_update, /* pakcets */ xr_stat.rx.voip_mtc.loss_rate, xr_stat.rx.voip_mtc.loss_rate*100.0/256, xr_stat.rx.voip_mtc.discard_rate, xr_stat.rx.voip_mtc.discard_rate*100.0/256, /* burst */ xr_stat.rx.voip_mtc.burst_den, xr_stat.rx.voip_mtc.burst_den*100.0/256, xr_stat.rx.voip_mtc.burst_dur, "ms", /* gap */ xr_stat.rx.voip_mtc.gap_den, xr_stat.rx.voip_mtc.gap_den*100.0/256, xr_stat.rx.voip_mtc.gap_dur, "ms", /* delay */ xr_stat.rx.voip_mtc.rnd_trip_delay, "ms", xr_stat.rx.voip_mtc.end_sys_delay, "ms", /* level */ signal_lvl, "dB", noise_lvl, "dB", rerl, "", /* quality */ r_factor, ext_r_factor, mos_lq, mos_cq, /* config */ plc, jba, jbr, xr_stat.rx.voip_mtc.gmin, /* JB delay */ xr_stat.rx.voip_mtc.jb_nom, "ms", xr_stat.rx.voip_mtc.jb_max, "ms", xr_stat.rx.voip_mtc.jb_abs_max, "ms" ); PRINT_VOIP_MTC_VAL(signal_lvl, xr_stat.tx.voip_mtc.signal_lvl); PRINT_VOIP_MTC_VAL(noise_lvl, xr_stat.tx.voip_mtc.noise_lvl); PRINT_VOIP_MTC_VAL(rerl, xr_stat.tx.voip_mtc.rerl); PRINT_VOIP_MTC_VAL(r_factor, xr_stat.tx.voip_mtc.r_factor); PRINT_VOIP_MTC_VAL(ext_r_factor, xr_stat.tx.voip_mtc.ext_r_factor); PRINT_VOIP_MTC_VAL(mos_lq, xr_stat.tx.voip_mtc.mos_lq); PRINT_VOIP_MTC_VAL(mos_cq, xr_stat.tx.voip_mtc.mos_cq); switch ((xr_stat.tx.voip_mtc.rx_config>>6) & 3) { case PJMEDIA_RTCP_XR_PLC_DIS: sprintf(plc, "DISABLED"); break; case PJMEDIA_RTCP_XR_PLC_ENH: sprintf(plc, "ENHANCED"); break; case PJMEDIA_RTCP_XR_PLC_STD: sprintf(plc, "STANDARD"); break; case PJMEDIA_RTCP_XR_PLC_UNK: default: sprintf(plc, "unknown"); break; } switch ((xr_stat.tx.voip_mtc.rx_config>>4) & 3) { case PJMEDIA_RTCP_XR_JB_FIXED: sprintf(jba, "FIXED"); break; case PJMEDIA_RTCP_XR_JB_ADAPTIVE: sprintf(jba, "ADAPTIVE"); break; default: sprintf(jba, "unknown"); break; } sprintf(jbr, "%d", xr_stat.tx.voip_mtc.rx_config & 0x0F); if (xr_stat.tx.voip_mtc.update.sec == 0) strcpy(last_update, "never"); else { pj_gettimeofday(&now); PJ_TIME_VAL_SUB(now, xr_stat.tx.voip_mtc.update); sprintf(last_update, "%02ldh:%02ldm:%02ld.%03lds ago", now.sec / 3600, (now.sec % 3600) / 60, now.sec % 60, now.msec); } printf(" TX last update: %s\n" " packets : loss rate=%d (%.2f%%), discard rate=%d (%.2f%%)\n" " burst : density=%d (%.2f%%), duration=%d%s\n" " gap : density=%d (%.2f%%), duration=%d%s\n" " delay : round trip=%d%s, end system=%d%s\n" " level : signal=%s%s, noise=%s%s, RERL=%s%s\n" " quality : R factor=%s, ext R factor=%s\n" " MOS LQ=%s, MOS CQ=%s\n" " config : PLC=%s, JB=%s, JB rate=%s, Gmin=%d\n" " JB delay : cur=%d%s, max=%d%s, abs max=%d%s\n", last_update, /* pakcets */ xr_stat.tx.voip_mtc.loss_rate, xr_stat.tx.voip_mtc.loss_rate*100.0/256, xr_stat.tx.voip_mtc.discard_rate, xr_stat.tx.voip_mtc.discard_rate*100.0/256, /* burst */ xr_stat.tx.voip_mtc.burst_den, xr_stat.tx.voip_mtc.burst_den*100.0/256, xr_stat.tx.voip_mtc.burst_dur, "ms", /* gap */ xr_stat.tx.voip_mtc.gap_den, xr_stat.tx.voip_mtc.gap_den*100.0/256, xr_stat.tx.voip_mtc.gap_dur, "ms", /* delay */ xr_stat.tx.voip_mtc.rnd_trip_delay, "ms", xr_stat.tx.voip_mtc.end_sys_delay, "ms", /* level */ signal_lvl, "dB", noise_lvl, "dB", rerl, "", /* quality */ r_factor, ext_r_factor, mos_lq, mos_cq, /* config */ plc, jba, jbr, xr_stat.tx.voip_mtc.gmin, /* JB delay */ xr_stat.tx.voip_mtc.jb_nom, "ms", xr_stat.tx.voip_mtc.jb_max, "ms", xr_stat.tx.voip_mtc.jb_abs_max, "ms" ); /* RTT delay (by receiver side) */ printf(" (msec) min avg max last dev\n"); printf(" RTT delay : %7.3f %7.3f %7.3f %7.3f %7.3f%s\n", xr_stat.rtt.min / 1000.0, xr_stat.rtt.mean / 1000.0, xr_stat.rtt.max / 1000.0, xr_stat.rtt.last / 1000.0, pj_math_stat_get_stddev(&xr_stat.rtt) / 1000.0, "" ); } while (0); #endif /* PJMEDIA_HAS_RTCP_XR */ }
/* * Print stream statistics */ static void print_stream_stat(pjmedia_stream *stream) { char duration[80], last_update[80]; char bps[16], ipbps[16], packets[16], bytes[16], ipbytes[16]; pjmedia_port *port; pjmedia_rtcp_stat stat; pj_time_val now; pj_gettimeofday(&now); pjmedia_stream_get_stat(stream, &stat); pjmedia_stream_get_port(stream, &port); puts("Stream statistics:"); /* Print duration */ PJ_TIME_VAL_SUB(now, stat.start); sprintf(duration, " Duration: %02ld:%02ld:%02ld.%03ld", now.sec / 3600, (now.sec % 3600) / 60, (now.sec % 60), now.msec); printf(" Info: audio %.*s@%dHz, %dms/frame, %sB/s (%sB/s +IP hdr)\n", (int)port->info.encoding_name.slen, port->info.encoding_name.ptr, port->info.clock_rate, port->info.samples_per_frame * 1000 / port->info.clock_rate, good_number(bps, port->info.bytes_per_frame * port->info.clock_rate / port->info.samples_per_frame), good_number(ipbps, (port->info.bytes_per_frame+32) * port->info.clock_rate / port->info.clock_rate)); if (stat.rx.update_cnt == 0) strcpy(last_update, "never"); else { pj_gettimeofday(&now); PJ_TIME_VAL_SUB(now, stat.rx.update); sprintf(last_update, "%02ldh:%02ldm:%02ld.%03lds ago", now.sec / 3600, (now.sec % 3600) / 60, now.sec % 60, now.msec); } printf(" RX stat last update: %s\n" " total %s packets %sB received (%sB +IP hdr)%s\n" " pkt loss=%d (%3.1f%%), dup=%d (%3.1f%%), reorder=%d (%3.1f%%)%s\n" " (msec) min avg max last\n" " loss period: %7.3f %7.3f %7.3f %7.3f%s\n" " jitter : %7.3f %7.3f %7.3f %7.3f%s\n", last_update, good_number(packets, stat.rx.pkt), good_number(bytes, stat.rx.bytes), good_number(ipbytes, stat.rx.bytes + stat.rx.pkt * 32), "", stat.rx.loss, stat.rx.loss * 100.0 / (stat.rx.pkt + stat.rx.loss), stat.rx.dup, stat.rx.dup * 100.0 / (stat.rx.pkt + stat.rx.loss), stat.rx.reorder, stat.rx.reorder * 100.0 / (stat.rx.pkt + stat.rx.loss), "", stat.rx.loss_period.min / 1000.0, stat.rx.loss_period.avg / 1000.0, stat.rx.loss_period.max / 1000.0, stat.rx.loss_period.last / 1000.0, "", stat.rx.jitter.min / 1000.0, stat.rx.jitter.avg / 1000.0, stat.rx.jitter.max / 1000.0, stat.rx.jitter.last / 1000.0, "" ); if (stat.tx.update_cnt == 0) strcpy(last_update, "never"); else { pj_gettimeofday(&now); PJ_TIME_VAL_SUB(now, stat.tx.update); sprintf(last_update, "%02ldh:%02ldm:%02ld.%03lds ago", now.sec / 3600, (now.sec % 3600) / 60, now.sec % 60, now.msec); } printf(" TX stat last update: %s\n" " total %s packets %sB sent (%sB +IP hdr)%s\n" " pkt loss=%d (%3.1f%%), dup=%d (%3.1f%%), reorder=%d (%3.1f%%)%s\n" " (msec) min avg max last\n" " loss period: %7.3f %7.3f %7.3f %7.3f%s\n" " jitter : %7.3f %7.3f %7.3f %7.3f%s\n", last_update, good_number(packets, stat.tx.pkt), good_number(bytes, stat.tx.bytes), good_number(ipbytes, stat.tx.bytes + stat.tx.pkt * 32), "", stat.tx.loss, stat.tx.loss * 100.0 / (stat.tx.pkt + stat.tx.loss), stat.tx.dup, stat.tx.dup * 100.0 / (stat.tx.pkt + stat.tx.loss), stat.tx.reorder, stat.tx.reorder * 100.0 / (stat.tx.pkt + stat.tx.loss), "", stat.tx.loss_period.min / 1000.0, stat.tx.loss_period.avg / 1000.0, stat.tx.loss_period.max / 1000.0, stat.tx.loss_period.last / 1000.0, "", stat.tx.jitter.min / 1000.0, stat.tx.jitter.avg / 1000.0, stat.tx.jitter.max / 1000.0, stat.tx.jitter.last / 1000.0, "" ); printf(" RTT delay : %7.3f %7.3f %7.3f %7.3f%s\n", stat.rtt.min / 1000.0, stat.rtt.avg / 1000.0, stat.rtt.max / 1000.0, stat.rtt.last / 1000.0, "" ); }
/* This is the RX "tick". * This function is called periodically every "tick" milliseconds, and * it will determine whether to call get_frame() from the RX stream. */ static void rx_tick(const pj_time_val *t) { struct stream *strm = g_app.rx; pjmedia_port *port = g_app.rx->port; long pkt_interval; pkt_interval = PJMEDIA_PIA_SPF(&port->info) * 1000 / PJMEDIA_PIA_SRATE(&port->info) * g_app.cfg.rx_snd_burst; if (PJ_TIME_VAL_GTE(*t, strm->state.rx.next_schedule)) { unsigned i; for (i=0; i<g_app.cfg.rx_snd_burst; ++i) { struct log_entry entry; pjmedia_rtcp_stat stat; pjmedia_jb_state jstate; pj_bool_t has_frame; char msg[120]; unsigned last_empty; pjmedia_stream_get_stat(g_app.rx->strm, &stat); pjmedia_stream_get_stat_jbuf(g_app.rx->strm, &jstate); last_empty = jstate.empty; /* Pre GET event */ pj_bzero(&entry, sizeof(entry)); entry.event = EVENT_GET_PRE; entry.wall_clock = *t; entry.stat = &stat; entry.jb_state = &jstate; write_log(&entry, PJ_TRUE); /* GET */ run_one_frame(g_app.rx->port, g_app.rx_wav, &has_frame); /* Post GET event */ pjmedia_stream_get_stat(g_app.rx->strm, &stat); pjmedia_stream_get_stat_jbuf(g_app.rx->strm, &jstate); pj_bzero(&entry, sizeof(entry)); entry.event = EVENT_GET_POST; entry.wall_clock = *t; entry.stat = &stat; entry.jb_state = &jstate; msg[0] = '\0'; entry.log = msg; if (jstate.empty > last_empty) strcat(msg, "** JBUF was empty **"); if (!has_frame) strcat(msg, "** NULL frame was returned **"); write_log(&entry, PJ_TRUE); } strm->state.rx.next_schedule.msec += pkt_interval; pj_time_val_normalize(&strm->state.rx.next_schedule); } }
/* This is the transmission "tick". * This function is called periodically every "tick" milliseconds, and * it will determine whether to transmit packet(s) (or to drop it). */ static void tx_tick(const pj_time_val *t) { struct stream *strm = g_app.tx; static char log_msg[120]; pjmedia_port *port = g_app.tx->port; long pkt_interval; /* packet interval, without jitter */ pkt_interval = PJMEDIA_PIA_SPF(&port->info) * 1000 / PJMEDIA_PIA_SRATE(&port->info); while (PJ_TIME_VAL_GTE(*t, strm->state.tx.next_schedule)) { struct log_entry entry; pj_bool_t drop_this_pkt = PJ_FALSE; int jitter; /* Init log entry */ pj_bzero(&entry, sizeof(entry)); entry.wall_clock = *t; /* * Determine whether to drop this packet */ if (strm->state.tx.cur_lost_burst) { /* We are currently dropping packet */ /* Make it comply to minimum lost burst */ if (strm->state.tx.cur_lost_burst < g_app.cfg.tx_min_lost_burst) { drop_this_pkt = PJ_TRUE; } /* Correlate the next packet loss */ if (!drop_this_pkt && strm->state.tx.cur_lost_burst < g_app.cfg.tx_max_lost_burst && MAX(strm->state.tx.total_lost-LOSS_EXTRA,0) * 100 / MAX(strm->state.tx.total_tx,1) < g_app.cfg.tx_pct_avg_lost ) { strm->state.tx.drop_prob = ((g_app.cfg.tx_pct_loss_corr * strm->state.tx.drop_prob) + ((100-g_app.cfg.tx_pct_loss_corr) * (pj_rand()%100)) ) / 100; if (strm->state.tx.drop_prob >= 100) strm->state.tx.drop_prob = 99; if (strm->state.tx.drop_prob >= 100 - g_app.cfg.tx_pct_avg_lost) drop_this_pkt = PJ_TRUE; } } /* If we're not dropping packet then use randomly distributed loss */ if (!drop_this_pkt && MAX(strm->state.tx.total_lost-LOSS_EXTRA,0) * 100 / MAX(strm->state.tx.total_tx,1) < g_app.cfg.tx_pct_avg_lost) { strm->state.tx.drop_prob = pj_rand() % 100; if (strm->state.tx.drop_prob >= 100 - g_app.cfg.tx_pct_avg_lost) drop_this_pkt = PJ_TRUE; } if (drop_this_pkt) { /* Drop the frame */ pjmedia_transport_simulate_lost(g_app.loop, PJMEDIA_DIR_ENCODING, 100); run_one_frame(g_app.tx_wav, g_app.tx->port, NULL); pjmedia_transport_simulate_lost(g_app.loop, PJMEDIA_DIR_ENCODING, 0); entry.event = EVENT_TX_DROP; entry.log = "** This packet was lost **"; ++strm->state.tx.total_lost; ++strm->state.tx.cur_lost_burst; } else { pjmedia_rtcp_stat stat; pjmedia_jb_state jstate; unsigned last_discard; pjmedia_stream_get_stat_jbuf(g_app.rx->strm, &jstate); last_discard = jstate.discard; run_one_frame(g_app.tx_wav, g_app.tx->port, NULL); pjmedia_stream_get_stat(g_app.rx->strm, &stat); pjmedia_stream_get_stat_jbuf(g_app.rx->strm, &jstate); entry.event = EVENT_TX; entry.jb_state = &jstate; entry.stat = &stat; entry.log = log_msg; if (jstate.discard > last_discard) strcat(log_msg, "** Note: packet was discarded by jitter buffer **"); strm->state.tx.cur_lost_burst = 0; } write_log(&entry, PJ_TRUE); ++strm->state.tx.total_tx; /* Calculate next schedule */ strm->state.tx.next_schedule.sec = 0; strm->state.tx.next_schedule.msec = (strm->state.tx.total_tx + 1) * pkt_interval; /* Apply jitter */ if (g_app.cfg.tx_max_jitter || g_app.cfg.tx_min_jitter) { if (g_app.cfg.tx_max_jitter == g_app.cfg.tx_min_jitter) { /* Fixed jitter */ switch (pj_rand() % 3) { case 0: jitter = 0 - g_app.cfg.tx_min_jitter; break; case 2: jitter = g_app.cfg.tx_min_jitter; break; default: jitter = 0; break; } } else { int jitter_range; jitter_range = (g_app.cfg.tx_max_jitter-g_app.cfg.tx_min_jitter)*2; jitter = pj_rand() % jitter_range; if (jitter < jitter_range/2) { jitter = 0 - g_app.cfg.tx_min_jitter - (jitter/2); } else { jitter = g_app.cfg.tx_min_jitter + (jitter/2); } } } else { jitter = 0; } pj_time_val_normalize(&strm->state.tx.next_schedule); sprintf(log_msg, "** Packet #%u tick is at %d.%03d, %d ms jitter applied **", strm->state.tx.total_tx+1, (int)strm->state.tx.next_schedule.sec, (int)strm->state.tx.next_schedule.msec, jitter); strm->state.tx.next_schedule.msec += jitter; pj_time_val_normalize(&strm->state.tx.next_schedule); } /* while */ }
int dummy_function() { pj_caching_pool cp; sprintf(NULL, "%d", 0); rand(); #ifdef HAS_PJLIB pj_init(); pj_caching_pool_init(&cp, NULL, 0); pj_array_erase(NULL, 0, 0, 0); pj_create_unique_string(NULL, NULL); pj_hash_create(NULL, 0); pj_hash_get(NULL, NULL, 0, NULL); pj_hash_set(NULL, NULL, NULL, 0, 0, NULL); pj_ioqueue_create(NULL, 0, NULL); pj_ioqueue_register_sock(NULL, NULL, 0, NULL, NULL, NULL); pj_pool_alloc(NULL, 0); pj_timer_heap_create(NULL, 0, NULL); #endif #ifdef HAS_PJLIB_STUN pjstun_get_mapped_addr(&cp.factory, 0, NULL, NULL, 80, NULL, 80, NULL); #endif #ifdef HAS_PJLIB_GETOPT pj_getopt_long(0, NULL, NULL, NULL, NULL); #endif #ifdef HAS_PJLIB_XML pj_xml_parse(NULL, NULL, 100); pj_xml_print(NULL, NULL, 10, PJ_FALSE); pj_xml_clone(NULL, NULL); pj_xml_node_new(NULL, NULL); pj_xml_attr_new(NULL, NULL, NULL); pj_xml_add_node(NULL, NULL); pj_xml_add_attr(NULL, NULL); pj_xml_find_node(NULL, NULL); pj_xml_find_next_node(NULL, NULL, NULL); pj_xml_find_attr(NULL, NULL, NULL); pj_xml_find(NULL, NULL, NULL, NULL); #endif #ifdef HAS_PJLIB_SCANNER pj_cis_buf_init(NULL); pj_cis_init(NULL, NULL); pj_cis_dup(NULL, NULL); pj_cis_add_alpha(NULL); pj_cis_add_str(NULL, NULL); pj_scan_init(NULL, NULL, 0, 0, NULL); pj_scan_fini(NULL); pj_scan_peek(NULL, NULL, NULL); pj_scan_peek_n(NULL, 0, NULL); pj_scan_peek_until(NULL, NULL, NULL); pj_scan_get(NULL, NULL, NULL); pj_scan_get_unescape(NULL, NULL, NULL); pj_scan_get_quote(NULL, 0, 0, NULL); pj_scan_get_n(NULL, 0, NULL); pj_scan_get_char(NULL); pj_scan_get_until(NULL, NULL, NULL); pj_scan_strcmp(NULL, NULL, 0); pj_scan_stricmp(NULL, NULL, 0); pj_scan_stricmp_alnum(NULL, NULL, 0); pj_scan_get_newline(NULL); pj_scan_restore_state(NULL, NULL); #endif #ifdef HAS_PJLIB_DNS pj_dns_make_query(NULL, NULL, 0, 0, NULL); pj_dns_parse_packet(NULL, NULL, 0, NULL); pj_dns_packet_dup(NULL, NULL, 0, NULL); #endif #ifdef HAS_PJLIB_RESOLVER pj_dns_resolver_create(NULL, NULL, 0, NULL, NULL, NULL); pj_dns_resolver_set_ns(NULL, 0, NULL, NULL); pj_dns_resolver_handle_events(NULL, NULL); pj_dns_resolver_destroy(NULL, 0); pj_dns_resolver_start_query(NULL, NULL, 0, 0, NULL, NULL, NULL); pj_dns_resolver_cancel_query(NULL, 0); pj_dns_resolver_add_entry(NULL, NULL, 0); #endif #ifdef HAS_PJLIB_SRV_RESOLVER pj_dns_srv_resolve(NULL, NULL, 0, NULL, NULL, PJ_FALSE, NULL, NULL); #endif #ifdef HAS_PJLIB_CRC32 pj_crc32_init(NULL); pj_crc32_update(NULL, NULL, 0); pj_crc32_final(NULL); #endif #ifdef HAS_PJLIB_HMAC_MD5 pj_hmac_md5(NULL, 0, NULL, 0, NULL); #endif #ifdef HAS_PJLIB_HMAC_SHA1 pj_hmac_sha1(NULL, 0, NULL, 0, NULL); #endif #ifdef HAS_PJNATH_STUN pj_stun_session_create(NULL, NULL, NULL, PJ_FALSE, NULL); pj_stun_session_destroy(NULL); pj_stun_session_set_credential(NULL, NULL); pj_stun_session_create_req(NULL, 0, NULL, NULL); pj_stun_session_create_ind(NULL, 0, NULL); pj_stun_session_create_res(NULL, NULL, 0, NULL, NULL); pj_stun_session_send_msg(NULL, PJ_FALSE, NULL, 0, NULL); #endif #ifdef HAS_PJNATH_ICE pj_ice_strans_create(NULL, NULL, 0, NULL, NULL, NULL); pj_ice_strans_set_stun_domain(NULL, NULL, NULL); pj_ice_strans_create_comp(NULL, 0, 0, NULL); pj_ice_strans_add_cand(NULL, 0, PJ_ICE_CAND_TYPE_HOST, 0, NULL, PJ_FALSE); pj_ice_strans_init_ice(NULL, PJ_ICE_SESS_ROLE_CONTROLLED, NULL, NULL); pj_ice_strans_start_ice(NULL, NULL, NULL, 0, NULL); pj_ice_strans_stop_ice(NULL); pj_ice_strans_sendto(NULL, 0, NULL, 0, NULL, 0); #endif #ifdef HAS_PJSIP_CORE_MSG_ELEM /* Parameter container */ pjsip_param_find(NULL, NULL); pjsip_param_print_on(NULL, NULL, 0, NULL, NULL, 0); /* SIP URI */ pjsip_sip_uri_create(NULL, 0); pjsip_name_addr_create(NULL); /* TEL URI */ pjsip_tel_uri_create(NULL); /* Message and headers */ pjsip_msg_create(NULL, PJSIP_REQUEST_MSG); pjsip_msg_print(NULL, NULL, 0); pjsip_accept_hdr_create(NULL); pjsip_allow_hdr_create(NULL); pjsip_cid_hdr_create(NULL); pjsip_clen_hdr_create(NULL); pjsip_cseq_hdr_create(NULL); pjsip_contact_hdr_create(NULL); pjsip_ctype_hdr_create(NULL); pjsip_expires_hdr_create(NULL, 0); pjsip_from_hdr_create(NULL); pjsip_max_fwd_hdr_create(NULL, 0); pjsip_min_expires_hdr_create(NULL, 0); pjsip_rr_hdr_create(NULL); pjsip_require_hdr_create(NULL); pjsip_retry_after_hdr_create(NULL, 0); pjsip_supported_hdr_create(NULL); pjsip_unsupported_hdr_create(NULL); pjsip_via_hdr_create(NULL); pjsip_warning_hdr_create(NULL, 0, NULL, NULL); pjsip_parse_uri(NULL, NULL, 0, 0); pjsip_parse_msg(NULL, NULL, 0, NULL); pjsip_parse_rdata(NULL, 0, NULL); pjsip_find_msg(NULL, 0, 0, NULL); #endif #ifdef HAS_PJSIP_CORE pjsip_endpt_create(NULL, NULL, NULL); pjsip_tpmgr_create(NULL, NULL, NULL, NULL, NULL); pjsip_tpmgr_destroy(NULL); pjsip_transport_send(NULL, NULL, NULL, 0, NULL, NULL); #endif #ifdef HAS_PJSIP_CORE_MSG_UTIL pjsip_endpt_create_request(NULL, NULL, NULL, NULL, NULL, NULL, NULL, -1, NULL, NULL); pjsip_endpt_create_request_from_hdr(NULL, NULL, NULL, NULL, NULL, NULL, NULL, -1, NULL, NULL); pjsip_endpt_create_response(NULL, NULL, -1, NULL, NULL); pjsip_endpt_create_ack(NULL, NULL, NULL, NULL); pjsip_endpt_create_cancel(NULL, NULL, NULL); pjsip_get_request_dest(NULL, NULL); pjsip_endpt_send_request_stateless(NULL, NULL, NULL, NULL); pjsip_get_response_addr(NULL, NULL, NULL); pjsip_endpt_send_response(NULL, NULL, NULL, NULL, NULL); pjsip_endpt_respond_stateless(NULL, NULL, -1, NULL, NULL, NULL); #endif #ifdef HAS_PJSIP_UDP_TRANSPORT pjsip_udp_transport_start(NULL, NULL, NULL, 1, NULL); #endif #ifdef HAS_PJSIP_TCP_TRANSPORT pjsip_tcp_transport_start(NULL, NULL, 1, NULL); #endif #ifdef HAS_PJSIP_TLS_TRANSPORT pjsip_tls_transport_start(NULL, NULL, NULL, NULL, 0, NULL); #endif #ifdef HAS_PJSIP_TRANSACTION pjsip_tsx_layer_init_module(NULL); pjsip_tsx_layer_destroy(); pjsip_tsx_create_uac(NULL, NULL, NULL); pjsip_tsx_create_uas(NULL, NULL, NULL); pjsip_tsx_recv_msg(NULL, NULL); pjsip_tsx_send_msg(NULL, NULL); pjsip_tsx_terminate(NULL, 200); pjsip_endpt_send_request(NULL, NULL, -1, NULL, NULL); pjsip_endpt_respond(NULL, NULL, NULL, -1, NULL, NULL, NULL, NULL); #endif #ifdef HAS_PJMEDIA_SDP pjmedia_sdp_parse(NULL, NULL, 1024, NULL); pjmedia_sdp_print(NULL, NULL, 1024); pjmedia_sdp_validate(NULL); pjmedia_sdp_session_clone(NULL, NULL); pjmedia_sdp_session_cmp(NULL, NULL, 0); pjmedia_sdp_attr_to_rtpmap(NULL, NULL, NULL); pjmedia_sdp_attr_get_fmtp(NULL, NULL); pjmedia_sdp_attr_get_rtcp(NULL, NULL); pjmedia_sdp_conn_clone(NULL, NULL); pjmedia_sdp_media_clone(NULL, NULL); pjmedia_sdp_media_find_attr(NULL, NULL, NULL); #endif #ifdef HAS_PJMEDIA_SDP_NEGOTIATOR pjmedia_sdp_neg_create_w_local_offer(NULL, NULL, NULL); pjmedia_sdp_neg_create_w_remote_offer(NULL, NULL, NULL, NULL); pjmedia_sdp_neg_get_state(NULL); pjmedia_sdp_neg_negotiate(NULL, NULL, PJ_FALSE); #endif #ifdef HAS_PJSIP_UA_LAYER pjsip_ua_init_module(NULL, NULL); pjsip_ua_destroy(); pjsip_dlg_create_uac(NULL, NULL, NULL, NULL, NULL, NULL); pjsip_dlg_create_uas_and_inc_lock(NULL, NULL, NULL, NULL); pjsip_dlg_terminate(NULL); pjsip_dlg_set_route_set(NULL, NULL); pjsip_dlg_create_request(NULL, NULL, -1, NULL); pjsip_dlg_send_request(NULL, NULL, -1, NULL); pjsip_dlg_create_response(NULL, NULL, -1, NULL, NULL); pjsip_dlg_modify_response(NULL, NULL, -1, NULL); pjsip_dlg_send_response(NULL, NULL, NULL); pjsip_dlg_respond(NULL, NULL, -1, NULL, NULL, NULL); #endif #ifdef HAS_PJSIP_AUTH_CLIENT pjsip_auth_clt_init(NULL, NULL, NULL, 0); pjsip_auth_clt_clone(NULL, NULL, NULL); pjsip_auth_clt_set_credentials(NULL, 0, NULL); pjsip_auth_clt_init_req(NULL, NULL); pjsip_auth_clt_reinit_req(NULL, NULL, NULL, NULL); #endif #ifdef HAS_PJSIP_INV_SESSION pjsip_inv_usage_init(NULL, NULL); pjsip_inv_create_uac(NULL, NULL, 0, NULL); pjsip_inv_verify_request(NULL, NULL, NULL, NULL, NULL, NULL); pjsip_inv_create_uas(NULL, NULL, NULL, 0, NULL); pjsip_inv_terminate(NULL, 200, PJ_FALSE); pjsip_inv_invite(NULL, NULL); pjsip_inv_initial_answer(NULL, NULL, 200, NULL, NULL, NULL); pjsip_inv_answer(NULL, 200, NULL, NULL, NULL); pjsip_inv_end_session(NULL, 200, NULL, NULL); pjsip_inv_reinvite(NULL, NULL, NULL, NULL); pjsip_inv_update(NULL, NULL, NULL, NULL); pjsip_inv_send_msg(NULL, NULL); pjsip_dlg_get_inv_session(NULL); //pjsip_tsx_get_inv_session(NULL); pjsip_inv_state_name(PJSIP_INV_STATE_NULL); #endif #ifdef HAS_PJSIP_REGC //pjsip_regc_get_module(); pjsip_regc_create(NULL, NULL, NULL, NULL); pjsip_regc_destroy(NULL); pjsip_regc_get_info(NULL, NULL); pjsip_regc_get_pool(NULL); pjsip_regc_init(NULL, NULL, NULL, NULL, 0, NULL, 600); pjsip_regc_set_credentials(NULL, 1, NULL); pjsip_regc_set_route_set(NULL, NULL); pjsip_regc_register(NULL, PJ_TRUE, NULL); pjsip_regc_unregister(NULL, NULL); pjsip_regc_update_contact(NULL, 10, NULL); pjsip_regc_update_expires(NULL, 600); pjsip_regc_send(NULL, NULL); #endif #ifdef HAS_PJSIP_EVENT_FRAMEWORK pjsip_evsub_init_module(NULL); pjsip_evsub_instance(); pjsip_evsub_register_pkg(NULL, NULL, 30, 10, NULL); pjsip_evsub_create_uac(NULL, NULL, NULL, 10, NULL); pjsip_evsub_create_uas(NULL, NULL, NULL, 10, NULL); pjsip_evsub_terminate(NULL, PJ_FALSE); pjsip_evsub_get_state(NULL); pjsip_evsub_get_state_name(NULL); pjsip_evsub_initiate(NULL, NULL, -1, NULL); pjsip_evsub_accept(NULL, NULL, 200, NULL); pjsip_evsub_notify(NULL, PJSIP_EVSUB_STATE_ACTIVE, NULL, NULL, NULL); pjsip_evsub_current_notify(NULL, NULL); pjsip_evsub_send_request(NULL, NULL); pjsip_tsx_get_evsub(NULL); pjsip_evsub_set_mod_data(NULL, 1, NULL); pjsip_evsub_get_mod_data(NULL, 1); #endif #ifdef HAS_PJSIP_CALL_TRANSFER pjsip_xfer_init_module(NULL); pjsip_xfer_create_uac(NULL, NULL, NULL); pjsip_xfer_create_uas(NULL, NULL, NULL, NULL); pjsip_xfer_initiate(NULL, NULL, NULL); pjsip_xfer_accept(NULL, NULL, 200, NULL); pjsip_xfer_notify(NULL, PJSIP_EVSUB_STATE_ACTIVE, 200, NULL, NULL); pjsip_xfer_current_notify(NULL, NULL); pjsip_xfer_send_request(NULL, NULL); #endif #ifdef HAS_PJSIP_PRESENCE pjsip_pres_init_module(NULL, NULL); pjsip_pres_instance(); pjsip_pres_create_uac(NULL, NULL, 0, NULL); pjsip_pres_create_uas(NULL, NULL, NULL, NULL); pjsip_pres_terminate(NULL, PJ_FALSE); pjsip_pres_initiate(NULL, 100, NULL); pjsip_pres_accept(NULL, NULL, 200, NULL); pjsip_pres_notify(NULL, PJSIP_EVSUB_STATE_ACTIVE, NULL, NULL, NULL); pjsip_pres_current_notify(NULL, NULL); pjsip_pres_send_request(NULL, NULL); pjsip_pres_get_status(NULL, NULL); pjsip_pres_set_status(NULL, NULL); #endif #ifdef HAS_PJSIP_IS_COMPOSING pjsip_iscomposing_create_xml(NULL, PJ_TRUE, NULL, NULL, 0); pjsip_iscomposing_create_body(NULL, PJ_TRUE, NULL, NULL, 0); pjsip_iscomposing_parse(NULL, NULL, 0, NULL, NULL, NULL, NULL); #endif #ifdef HAS_PJMEDIA pjmedia_endpt_create(NULL, NULL, 1, NULL); pjmedia_endpt_destroy(NULL); pjmedia_endpt_create_sdp(NULL, NULL, 1, NULL, NULL); #endif #ifdef HAS_PJMEDIA_EC pjmedia_echo_create(NULL, 0, 0, 0, 0, 0, NULL); pjmedia_echo_destroy(NULL); pjmedia_echo_playback(NULL, NULL); pjmedia_echo_capture(NULL, NULL, 0); pjmedia_echo_cancel(NULL, NULL, NULL, 0, NULL); #endif #ifdef HAS_PJMEDIA_SND_DEV pjmedia_snd_init(NULL); pjmedia_snd_get_dev_count(); pjmedia_snd_get_dev_info(0); pjmedia_snd_open(-1, -1, 8000, 1, 80, 16, NULL, NULL, NULL, NULL); pjmedia_snd_open_rec(-1, 8000, 1, 160, 16, NULL, NULL, NULL); pjmedia_snd_open_player(-1, 8000, 1, 160, 16, NULL, NULL, NULL); pjmedia_snd_stream_start(NULL); pjmedia_snd_stream_stop(NULL); pjmedia_snd_stream_close(NULL); pjmedia_snd_deinit(); #endif #ifdef HAS_PJMEDIA_SND_PORT pjmedia_snd_port_create(NULL, -1, -1, 8000, 1, 180, 16, 0, NULL); pjmedia_snd_port_create_rec(NULL, -1, 8000, 1, 160, 16, 0, NULL); pjmedia_snd_port_create_player(NULL, -1, 8000, 1, 160, 16, 0, NULL); pjmedia_snd_port_destroy(NULL); pjmedia_snd_port_get_snd_stream(NULL); pjmedia_snd_port_connect(NULL, NULL); pjmedia_snd_port_get_port(NULL); pjmedia_snd_port_disconnect(NULL); #endif #ifdef HAS_PJMEDIA_RESAMPLE pjmedia_resample_create(NULL, PJ_TRUE, PJ_TRUE, 0, 0, 0, 0, NULL); pjmedia_resample_run(NULL, NULL, NULL); #endif #ifdef HAS_PJMEDIA_SILENCE_DET pjmedia_silence_det_create(NULL, 8000, 80, NULL); pjmedia_silence_det_detect(NULL, NULL, 0, NULL); pjmedia_silence_det_apply(NULL, 0); #endif #ifdef HAS_PJMEDIA_PLC pjmedia_plc_create(NULL, 8000, 80, 0, NULL); pjmedia_plc_save(NULL, NULL); pjmedia_plc_generate(NULL, NULL); #endif #ifdef HAS_PJMEDIA_CONFERENCE pjmedia_conf_create(NULL, 10, 8000, 1, 160, 16, 0, NULL); pjmedia_conf_destroy(NULL); pjmedia_conf_get_master_port(NULL); pjmedia_conf_add_port(NULL, NULL, NULL, NULL, NULL); pjmedia_conf_configure_port(NULL, 1, 0, 0); pjmedia_conf_connect_port(NULL, 0, 0, 0); pjmedia_conf_disconnect_port(NULL, 0, 0); pjmedia_conf_remove_port(NULL, 0); pjmedia_conf_enum_ports(NULL, NULL, NULL); pjmedia_conf_get_port_info(NULL, 0, NULL); pjmedia_conf_get_ports_info(NULL, NULL, NULL); pjmedia_conf_get_signal_level(NULL, 0, NULL, NULL); pjmedia_conf_adjust_rx_level(NULL, 0, 0); pjmedia_conf_adjust_tx_level(NULL, 0, 0); #endif #ifdef HAS_PJMEDIA_MASTER_PORT pjmedia_master_port_create(NULL, NULL, NULL, 0, NULL); pjmedia_master_port_start(NULL); pjmedia_master_port_stop(NULL); pjmedia_master_port_set_uport(NULL, NULL); pjmedia_master_port_get_uport(NULL); pjmedia_master_port_set_dport(NULL, NULL); pjmedia_master_port_get_dport(NULL); pjmedia_master_port_destroy(NULL, PJ_FALSE); #endif #ifdef HAS_PJMEDIA_RTP pjmedia_rtp_session_init(NULL, 0, 0); pjmedia_rtp_encode_rtp(NULL, 0, 0, 0, 0, NULL, NULL); pjmedia_rtp_decode_rtp(NULL, NULL, 0, NULL, NULL, NULL); pjmedia_rtp_session_update(NULL, NULL, NULL); #endif #ifdef HAS_PJMEDIA_RTCP pjmedia_rtcp_init(NULL, NULL, 0, 0, 0); pjmedia_rtcp_get_ntp_time(NULL, NULL); pjmedia_rtcp_fini(NULL); pjmedia_rtcp_rx_rtp(NULL, 0, 0, 0); pjmedia_rtcp_tx_rtp(NULL, 0); pjmedia_rtcp_rx_rtcp(NULL, NULL, 0); pjmedia_rtcp_build_rtcp(NULL, NULL, NULL); #endif #ifdef HAS_PJMEDIA_JBUF pjmedia_jbuf_create(NULL, NULL, 0, 0, 0, NULL); pjmedia_jbuf_set_fixed(NULL, 0); pjmedia_jbuf_set_adaptive(NULL, 0, 0, 0); pjmedia_jbuf_destroy(NULL); pjmedia_jbuf_put_frame(NULL, NULL, 0, 0); pjmedia_jbuf_get_frame(NULL, NULL, NULL); #endif #ifdef HAS_PJMEDIA_STREAM pjmedia_stream_create(NULL, NULL, NULL, NULL, NULL, NULL); pjmedia_stream_destroy(NULL); pjmedia_stream_get_port(NULL, NULL); pjmedia_stream_get_transport(NULL); pjmedia_stream_start(NULL); pjmedia_stream_get_stat(NULL, NULL); pjmedia_stream_pause(NULL, PJMEDIA_DIR_ENCODING); pjmedia_stream_resume(NULL, PJMEDIA_DIR_ENCODING); pjmedia_stream_dial_dtmf(NULL, NULL); pjmedia_stream_check_dtmf(NULL); pjmedia_stream_get_dtmf(NULL, NULL, NULL); #endif #ifdef HAS_PJMEDIA_TONEGEN pjmedia_tonegen_create(NULL, 0, 0, 0, 0, 0, NULL); pjmedia_tonegen_is_busy(NULL); pjmedia_tonegen_stop(NULL); pjmedia_tonegen_play(NULL, 0, NULL, 0); pjmedia_tonegen_play_digits(NULL, 0, NULL, 0); pjmedia_tonegen_get_digit_map(NULL, NULL); pjmedia_tonegen_set_digit_map(NULL, NULL); #endif #ifdef HAS_PJMEDIA_UDP_TRANSPORT pjmedia_transport_udp_create(NULL, NULL, 0, 0, NULL); pjmedia_transport_udp_close(NULL); #endif #ifdef HAS_PJMEDIA_FILE_PLAYER pjmedia_wav_player_port_create(NULL, NULL, 0, 0, 0, NULL); pjmedia_wav_player_port_set_pos(NULL, 0); pjmedia_wav_player_port_get_pos(NULL); pjmedia_wav_player_set_eof_cb(NULL, NULL, NULL); #endif #ifdef HAS_PJMEDIA_FILE_CAPTURE pjmedia_wav_writer_port_create(NULL, NULL, 8000, 1, 80, 16, 0, 0, NULL); pjmedia_wav_writer_port_get_pos(NULL); pjmedia_wav_writer_port_set_cb(NULL, 0, NULL, NULL); #endif #ifdef HAS_PJMEDIA_MEM_PLAYER pjmedia_mem_player_create(NULL, NULL, 1000, 8000, 1, 80, 16, 0, NULL); #endif #ifdef HAS_PJMEDIA_MEM_CAPTURE pjmedia_mem_capture_create(NULL, NULL, 1000, 8000, 1, 80, 16, 0, NULL); #endif #ifdef HAS_PJMEDIA_ICE pjmedia_ice_create(NULL, NULL, 0, NULL, NULL); pjmedia_ice_destroy(NULL); pjmedia_ice_start_init(NULL, 0, NULL, NULL, NULL); pjmedia_ice_init_ice(NULL, PJ_ICE_SESS_ROLE_CONTROLLED, NULL, NULL); pjmedia_ice_modify_sdp(NULL, NULL, NULL); pjmedia_ice_start_ice(NULL, NULL, NULL, 0); pjmedia_ice_stop_ice(NULL); #endif #ifdef HAS_PJMEDIA_G711_CODEC pjmedia_codec_g711_init(NULL); pjmedia_codec_g711_deinit(); #endif #ifdef HAS_PJMEDIA_GSM_CODEC pjmedia_codec_gsm_init(NULL); pjmedia_codec_gsm_deinit(); #endif #ifdef HAS_PJMEDIA_SPEEX_CODEC pjmedia_codec_speex_init(NULL, 0, 0, 0); pjmedia_codec_speex_deinit(); #endif #ifdef HAS_PJMEDIA_ILBC_CODEC pjmedia_codec_ilbc_init(NULL, 0); pjmedia_codec_ilbc_deinit(); #endif return 0; }