/* $Id$ */ /* * Copyright (C) 2008-2011 Teluu Inc. (http://www.teluu.com) * Copyright (C) 2003-2008 Benny Prijono * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */ /** * \page page_pjmedia_samples_streamutil_c Samples: Remote Streaming * * This example mainly demonstrates how to stream media file to remote * peer using RTP. * * This file is pjsip-apps/src/samples/streamutil.c * * \includelineno streamutil.c */ #include #include #include #include #include #include /* atoi() */ #include #include "util.h" static const char *desc = " streamutil \n" " \n" " PURPOSE: \n" " Demonstrate how to use pjmedia stream component to transmit/receive \n" " RTP packets to/from sound device. \n" "\n" "\n" " USAGE: \n" " streamutil [options] \n" "\n" "\n" " Options:\n" " --codec=CODEC Set the codec name. \n" " --local-port=PORT Set local RTP port (default=4000) \n" " --remote=IP:PORT Set the remote peer. If this option is set, \n" " the program will transmit RTP audio to the \n" " specified address. (default: recv only) \n" " --play-file=WAV Send audio from the WAV file instead of from \n" " the sound device. \n" " --record-file=WAV Record incoming audio to WAV file instead of \n" " playing it to sound device. \n" " --send-recv Set stream direction to bidirectional. \n" " --send-only Set stream direction to send only \n" " --recv-only Set stream direction to recv only (default) \n" #if defined(PJMEDIA_HAS_SRTP) && (PJMEDIA_HAS_SRTP != 0) " --use-srtp[=NAME] Enable SRTP with crypto suite NAME \n" " e.g: AES_CM_128_HMAC_SHA1_80 (default), \n" " AES_CM_128_HMAC_SHA1_32 \n" " Use this option along with the TX & RX keys, \n" " formated of 60 hex digits (e.g: E148DA..) \n" " --srtp-tx-key SRTP key for transmiting \n" " --srtp-rx-key SRTP key for receiving \n" #endif "\n" ; #define THIS_FILE "stream.c" /* Prototype */ static void print_stream_stat(pjmedia_stream *stream, const pjmedia_codec_param *codec_param); /* Prototype for LIBSRTP utility in file datatypes.c */ int hex_string_to_octet_string(char *raw, char *hex, int len); /* * Register all codecs. */ static pj_status_t init_codecs(pjmedia_endpt *med_endpt) { return pjmedia_codec_register_audio_codecs(med_endpt, NULL); } /* * Create stream based on the codec, dir, remote address, etc. */ static pj_status_t create_stream( pj_pool_t *pool, pjmedia_endpt *med_endpt, const pjmedia_codec_info *codec_info, pjmedia_dir dir, pj_uint16_t local_port, const pj_sockaddr_in *rem_addr, #if defined(PJMEDIA_HAS_SRTP) && (PJMEDIA_HAS_SRTP != 0) pj_bool_t use_srtp, const pj_str_t *crypto_suite, const pj_str_t *srtp_tx_key, const pj_str_t *srtp_rx_key, #endif pjmedia_stream **p_stream ) { pjmedia_stream_info info; pjmedia_transport *transport = NULL; pj_status_t status; #if defined(PJMEDIA_HAS_SRTP) && (PJMEDIA_HAS_SRTP != 0) pjmedia_transport *srtp_tp = NULL; #endif /* Reset stream info. */ pj_bzero(&info, sizeof(info)); /* Initialize stream info formats */ info.type = PJMEDIA_TYPE_AUDIO; info.dir = dir; pj_memcpy(&info.fmt, codec_info, sizeof(pjmedia_codec_info)); info.tx_pt = codec_info->pt; info.rx_pt = codec_info->pt; info.ssrc = pj_rand(); #if PJMEDIA_HAS_RTCP_XR && PJMEDIA_STREAM_ENABLE_XR /* Set default RTCP XR enabled/disabled */ info.rtcp_xr_enabled = PJ_TRUE; #endif /* Copy remote address */ pj_memcpy(&info.rem_addr, rem_addr, sizeof(pj_sockaddr_in)); /* If remote address is not set, set to an arbitrary address * (otherwise stream will assert). */ if (info.rem_addr.addr.sa_family == 0) { const pj_str_t addr = pj_str("127.0.0.1"); pj_sockaddr_in_init(&info.rem_addr.ipv4, &addr, 0); } /* Create media transport */ status = pjmedia_transport_udp_create(med_endpt, NULL, local_port, 0, &transport); if (status != PJ_SUCCESS) return status; #if defined(PJMEDIA_HAS_SRTP) && (PJMEDIA_HAS_SRTP != 0) /* Check if SRTP enabled */ if (use_srtp) { pjmedia_srtp_crypto tx_plc, rx_plc; status = pjmedia_transport_srtp_create(med_endpt, transport, NULL, &srtp_tp); if (status != PJ_SUCCESS) return status; pj_bzero(&tx_plc, sizeof(pjmedia_srtp_crypto)); pj_bzero(&rx_plc, sizeof(pjmedia_srtp_crypto)); tx_plc.key = *srtp_tx_key; tx_plc.name = *crypto_suite; rx_plc.key = *srtp_rx_key; rx_plc.name = *crypto_suite; status = pjmedia_transport_srtp_start(srtp_tp, &tx_plc, &rx_plc); if (status != PJ_SUCCESS) return status; transport = srtp_tp; } #endif /* Now that the stream info is initialized, we can create the * stream. */ status = pjmedia_stream_create( med_endpt, pool, &info, transport, NULL, p_stream); if (status != PJ_SUCCESS) { app_perror(THIS_FILE, "Error creating stream", status); pjmedia_transport_close(transport); return status; } return PJ_SUCCESS; } /* * usage() */ static void usage() { puts(desc); } /* * main() */ int main(int argc, char *argv[]) { pj_caching_pool cp; pjmedia_endpt *med_endpt; pj_pool_t *pool; pjmedia_port *rec_file_port = NULL, *play_file_port = NULL; pjmedia_master_port *master_port = NULL; pjmedia_snd_port *snd_port = NULL; pjmedia_stream *stream = NULL; pjmedia_port *stream_port; char tmp[10]; pj_status_t status; #if defined(PJMEDIA_HAS_SRTP) && (PJMEDIA_HAS_SRTP != 0) /* SRTP variables */ pj_bool_t use_srtp = PJ_FALSE; char tmp_tx_key[64]; char tmp_rx_key[64]; pj_str_t srtp_tx_key = {NULL, 0}; pj_str_t srtp_rx_key = {NULL, 0}; pj_str_t srtp_crypto_suite = {NULL, 0}; int tmp_key_len; #endif /* Default values */ const pjmedia_codec_info *codec_info; pjmedia_codec_param codec_param; pjmedia_dir dir = PJMEDIA_DIR_DECODING; pj_sockaddr_in remote_addr; pj_uint16_t local_port = 4000; char *codec_id = NULL; char *rec_file = NULL; char *play_file = NULL; enum { OPT_CODEC = 'c', OPT_LOCAL_PORT = 'p', OPT_REMOTE = 'r', OPT_PLAY_FILE = 'w', OPT_RECORD_FILE = 'R', OPT_SEND_RECV = 'b', OPT_SEND_ONLY = 's', OPT_RECV_ONLY = 'i', #if defined(PJMEDIA_HAS_SRTP) && (PJMEDIA_HAS_SRTP != 0) OPT_USE_SRTP = 'S', #endif OPT_SRTP_TX_KEY = 'x', OPT_SRTP_RX_KEY = 'y', OPT_HELP = 'h', }; struct pj_getopt_option long_options[] = { { "codec", 1, 0, OPT_CODEC }, { "local-port", 1, 0, OPT_LOCAL_PORT }, { "remote", 1, 0, OPT_REMOTE }, { "play-file", 1, 0, OPT_PLAY_FILE }, { "record-file", 1, 0, OPT_RECORD_FILE }, { "send-recv", 0, 0, OPT_SEND_RECV }, { "send-only", 0, 0, OPT_SEND_ONLY }, { "recv-only", 0, 0, OPT_RECV_ONLY }, #if defined(PJMEDIA_HAS_SRTP) && (PJMEDIA_HAS_SRTP != 0) { "use-srtp", 2, 0, OPT_USE_SRTP }, { "srtp-tx-key", 1, 0, OPT_SRTP_TX_KEY }, { "srtp-rx-key", 1, 0, OPT_SRTP_RX_KEY }, #endif { "help", 0, 0, OPT_HELP }, { NULL, 0, 0, 0 }, }; int c; int option_index; pj_bzero(&remote_addr, sizeof(remote_addr)); /* init PJLIB : */ status = pj_init(); PJ_ASSERT_RETURN(status == PJ_SUCCESS, 1); /* Parse arguments */ pj_optind = 0; while((c=pj_getopt_long(argc,argv, "h", long_options, &option_index))!=-1) { switch (c) { case OPT_CODEC: codec_id = pj_optarg; break; case OPT_LOCAL_PORT: local_port = (pj_uint16_t) atoi(pj_optarg); if (local_port < 1) { printf("Error: invalid local port %s\n", pj_optarg); return 1; } break; case OPT_REMOTE: { pj_str_t ip = pj_str(strtok(pj_optarg, ":")); pj_uint16_t port = (pj_uint16_t) atoi(strtok(NULL, ":")); status = pj_sockaddr_in_init(&remote_addr, &ip, port); if (status != PJ_SUCCESS) { app_perror(THIS_FILE, "Invalid remote address", status); return 1; } } break; case OPT_PLAY_FILE: play_file = pj_optarg; break; case OPT_RECORD_FILE: rec_file = pj_optarg; break; case OPT_SEND_RECV: dir = PJMEDIA_DIR_ENCODING_DECODING; break; case OPT_SEND_ONLY: dir = PJMEDIA_DIR_ENCODING; break; case OPT_RECV_ONLY: dir = PJMEDIA_DIR_DECODING; break; #if defined(PJMEDIA_HAS_SRTP) && (PJMEDIA_HAS_SRTP != 0) case OPT_USE_SRTP: use_srtp = PJ_TRUE; if (pj_optarg) { pj_strset(&srtp_crypto_suite, pj_optarg, strlen(pj_optarg)); } else { srtp_crypto_suite = pj_str("AES_CM_128_HMAC_SHA1_80"); } break; case OPT_SRTP_TX_KEY: tmp_key_len = hex_string_to_octet_string(tmp_tx_key, pj_optarg, (int)strlen(pj_optarg)); pj_strset(&srtp_tx_key, tmp_tx_key, tmp_key_len/2); break; case OPT_SRTP_RX_KEY: tmp_key_len = hex_string_to_octet_string(tmp_rx_key, pj_optarg, (int)strlen(pj_optarg)); pj_strset(&srtp_rx_key, tmp_rx_key, tmp_key_len/2); break; #endif case OPT_HELP: usage(); return 1; default: printf("Invalid options %s\n", argv[pj_optind]); return 1; } } /* Verify arguments. */ if (dir & PJMEDIA_DIR_ENCODING) { if (remote_addr.sin_addr.s_addr == 0) { printf("Error: remote address must be set\n"); return 1; } } if (play_file != NULL && dir != PJMEDIA_DIR_ENCODING) { printf("Direction is set to --send-only because of --play-file\n"); dir = PJMEDIA_DIR_ENCODING; } #if defined(PJMEDIA_HAS_SRTP) && (PJMEDIA_HAS_SRTP != 0) /* SRTP validation */ if (use_srtp) { if (!srtp_tx_key.slen || !srtp_rx_key.slen) { printf("Error: Key for each SRTP stream direction must be set\n"); return 1; } } #endif /* Must create a pool factory before we can allocate any memory. */ pj_caching_pool_init(&cp, &pj_pool_factory_default_policy, 0); /* * Initialize media endpoint. * This will implicitly initialize PJMEDIA too. */ status = pjmedia_endpt_create(&cp.factory, NULL, 1, &med_endpt); PJ_ASSERT_RETURN(status == PJ_SUCCESS, 1); /* Create memory pool for application purpose */ pool = pj_pool_create( &cp.factory, /* pool factory */ "app", /* pool name. */ 4000, /* init size */ 4000, /* increment size */ NULL /* callback on error */ ); /* Register all supported codecs */ status = init_codecs(med_endpt); PJ_ASSERT_RETURN(status == PJ_SUCCESS, 1); /* Find which codec to use. */ if (codec_id) { unsigned count = 1; pj_str_t str_codec_id = pj_str(codec_id); pjmedia_codec_mgr *codec_mgr = pjmedia_endpt_get_codec_mgr(med_endpt); status = pjmedia_codec_mgr_find_codecs_by_id( codec_mgr, &str_codec_id, &count, &codec_info, NULL); if (status != PJ_SUCCESS) { printf("Error: unable to find codec %s\n", codec_id); return 1; } } else { /* Default to pcmu */ pjmedia_codec_mgr_get_codec_info( pjmedia_endpt_get_codec_mgr(med_endpt), 0, &codec_info); } /* Create stream based on program arguments */ status = create_stream(pool, med_endpt, codec_info, dir, local_port, &remote_addr, #if defined(PJMEDIA_HAS_SRTP) && (PJMEDIA_HAS_SRTP != 0) use_srtp, &srtp_crypto_suite, &srtp_tx_key, &srtp_rx_key, #endif &stream); if (status != PJ_SUCCESS) goto on_exit; /* Get codec default param for info */ status = pjmedia_codec_mgr_get_default_param( pjmedia_endpt_get_codec_mgr(med_endpt), codec_info, &codec_param); /* Should be ok, as create_stream() above succeeded */ pj_assert(status == PJ_SUCCESS); /* Get the port interface of the stream */ status = pjmedia_stream_get_port( stream, &stream_port); PJ_ASSERT_RETURN(status == PJ_SUCCESS, 1); if (play_file) { unsigned wav_ptime; wav_ptime = PJMEDIA_PIA_PTIME(&stream_port->info); status = pjmedia_wav_player_port_create(pool, play_file, wav_ptime, 0, -1, &play_file_port); if (status != PJ_SUCCESS) { app_perror(THIS_FILE, "Unable to use file", status); goto on_exit; } status = pjmedia_master_port_create(pool, play_file_port, stream_port, 0, &master_port); if (status != PJ_SUCCESS) { app_perror(THIS_FILE, "Unable to create master port", status); goto on_exit; } status = pjmedia_master_port_start(master_port); if (status != PJ_SUCCESS) { app_perror(THIS_FILE, "Error starting master port", status); goto on_exit; } printf("Playing from WAV file %s..\n", play_file); } else if (rec_file) { status = pjmedia_wav_writer_port_create(pool, rec_file, PJMEDIA_PIA_SRATE(&stream_port->info), PJMEDIA_PIA_CCNT(&stream_port->info), PJMEDIA_PIA_SPF(&stream_port->info), PJMEDIA_PIA_BITS(&stream_port->info), 0, 0, &rec_file_port); if (status != PJ_SUCCESS) { app_perror(THIS_FILE, "Unable to use file", status); goto on_exit; } status = pjmedia_master_port_create(pool, stream_port, rec_file_port, 0, &master_port); if (status != PJ_SUCCESS) { app_perror(THIS_FILE, "Unable to create master port", status); goto on_exit; } status = pjmedia_master_port_start(master_port); if (status != PJ_SUCCESS) { app_perror(THIS_FILE, "Error starting master port", status); goto on_exit; } printf("Recording to WAV file %s..\n", rec_file); } else { /* Create sound device port. */ if (dir == PJMEDIA_DIR_ENCODING_DECODING) status = pjmedia_snd_port_create(pool, -1, -1, PJMEDIA_PIA_SRATE(&stream_port->info), PJMEDIA_PIA_CCNT(&stream_port->info), PJMEDIA_PIA_SPF(&stream_port->info), PJMEDIA_PIA_BITS(&stream_port->info), 0, &snd_port); else if (dir == PJMEDIA_DIR_ENCODING) status = pjmedia_snd_port_create_rec(pool, -1, PJMEDIA_PIA_SRATE(&stream_port->info), PJMEDIA_PIA_CCNT(&stream_port->info), PJMEDIA_PIA_SPF(&stream_port->info), PJMEDIA_PIA_BITS(&stream_port->info), 0, &snd_port); else status = pjmedia_snd_port_create_player(pool, -1, PJMEDIA_PIA_SRATE(&stream_port->info), PJMEDIA_PIA_CCNT(&stream_port->info), PJMEDIA_PIA_SPF(&stream_port->info), PJMEDIA_PIA_BITS(&stream_port->info), 0, &snd_port); if (status != PJ_SUCCESS) { app_perror(THIS_FILE, "Unable to create sound port", status); goto on_exit; } /* Connect sound port to stream */ status = pjmedia_snd_port_connect( snd_port, stream_port ); PJ_ASSERT_RETURN(status == PJ_SUCCESS, 1); } /* Start streaming */ pjmedia_stream_start(stream); /* Done */ if (dir == PJMEDIA_DIR_DECODING) printf("Stream is active, dir is recv-only, local port is %d\n", local_port); else if (dir == PJMEDIA_DIR_ENCODING) printf("Stream is active, dir is send-only, sending to %s:%d\n", pj_inet_ntoa(remote_addr.sin_addr), pj_ntohs(remote_addr.sin_port)); else printf("Stream is active, send/recv, local port is %d, " "sending to %s:%d\n", local_port, pj_inet_ntoa(remote_addr.sin_addr), pj_ntohs(remote_addr.sin_port)); for (;;) { puts(""); puts("Commands:"); puts(" s Display media statistics"); puts(" q Quit"); puts(""); printf("Command: "); fflush(stdout); if (fgets(tmp, sizeof(tmp), stdin) == NULL) { puts("EOF while reading stdin, will quit now.."); break; } if (tmp[0] == 's') print_stream_stat(stream, &codec_param); else if (tmp[0] == 'q') break; } /* Start deinitialization: */ on_exit: /* Destroy sound device */ if (snd_port) { pjmedia_snd_port_destroy( snd_port ); PJ_ASSERT_RETURN(status == PJ_SUCCESS, 1); } /* If there is master port, then we just need to destroy master port * (it will recursively destroy upstream and downstream ports, which * in this case are file_port and stream_port). */ if (master_port) { pjmedia_master_port_destroy(master_port, PJ_TRUE); play_file_port = NULL; stream = NULL; } /* Destroy stream */ if (stream) { pjmedia_transport *tp; tp = pjmedia_stream_get_transport(stream); pjmedia_stream_destroy(stream); pjmedia_transport_close(tp); } /* Destroy file ports */ if (play_file_port) pjmedia_port_destroy( play_file_port ); if (rec_file_port) pjmedia_port_destroy( rec_file_port ); /* Release application pool */ pj_pool_release( pool ); /* Destroy media endpoint. */ pjmedia_endpt_destroy( med_endpt ); /* Destroy pool factory */ pj_caching_pool_destroy( &cp ); /* Shutdown PJLIB */ pj_shutdown(); return (status == PJ_SUCCESS) ? 0 : 1; } static const char *good_number(char *buf, pj_int32_t val) { if (val < 1000) { pj_ansi_sprintf(buf, "%d", val); } else if (val < 1000000) { pj_ansi_sprintf(buf, "%d.%dK", val / 1000, (val % 1000) / 100); } else { pj_ansi_sprintf(buf, "%d.%02dM", val / 1000000, (val % 1000000) / 10000); } return buf; } #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) /* * 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 */ }