Gitiles
Code Review Sign In
review.jami.net / jami-client-android / c323b6b76c41cd924b920f215e8eb93a9d54663a / . / jni / pjproject-android / .svn / pristine / a7 / a751b61f68c57952a340ce5ae5df5866daf403f1.svn-base
blob: ddd707810a7f3bdcbc08423b4268ca2a12ec5cea [file] [log] [blame]
/* $Id$ */
/*
* Copyright (C) 2008-2011 Teluu Inc. (http://www.teluu.com)
* Copyright (C) 2003-2008 Benny Prijono <benny@prijono.org>
*
* 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
*/
#include <pjmedia/rtcp.h>
#include <pjmedia/errno.h>
#include <pj/assert.h>
#include <pj/log.h>
#include <pj/os.h>
#include <pj/sock.h>
#include <pj/string.h>
#define THIS_FILE "rtcp.c"
#define RTCP_SR 200
#define RTCP_RR 201
#define RTCP_SDES 202
#define RTCP_BYE 203
#define RTCP_XR 207
enum {
RTCP_SDES_NULL = 0,
RTCP_SDES_CNAME = 1,
RTCP_SDES_NAME = 2,
RTCP_SDES_EMAIL = 3,
RTCP_SDES_PHONE = 4,
RTCP_SDES_LOC = 5,
RTCP_SDES_TOOL = 6,
RTCP_SDES_NOTE = 7
};
#if PJ_HAS_HIGH_RES_TIMER==0
# error "High resolution timer needs to be enabled"
#endif
#if 0
# define TRACE_(x) PJ_LOG(3,x)
#else
# define TRACE_(x) ;
#endif
/*
* Get NTP time.
*/
PJ_DEF(pj_status_t) pjmedia_rtcp_get_ntp_time(const pjmedia_rtcp_session *sess,
pjmedia_rtcp_ntp_rec *ntp)
{
/* Seconds between 1900-01-01 to 1970-01-01 */
#define JAN_1970 (2208988800UL)
pj_timestamp ts;
pj_status_t status;
status = pj_get_timestamp(&ts);
/* Fill up the high 32bit part */
ntp->hi = (pj_uint32_t)((ts.u64 - sess->ts_base.u64) / sess->ts_freq.u64)
+ sess->tv_base.sec + JAN_1970;
/* Calculate seconds fractions */
ts.u64 = (ts.u64 - sess->ts_base.u64) % sess->ts_freq.u64;
pj_assert(ts.u64 < sess->ts_freq.u64);
ts.u64 = (ts.u64 << 32) / sess->ts_freq.u64;
/* Fill up the low 32bit part */
ntp->lo = ts.u32.lo;
#if (defined(PJ_WIN32) && PJ_WIN32!=0) || \
(defined(PJ_WIN64) && PJ_WIN64!=0) || \
(defined(PJ_WIN32_WINCE) && PJ_WIN32_WINCE!=0)
/* On Win32, since we use QueryPerformanceCounter() as the backend
* timestamp API, we need to protect against this bug:
* Performance counter value may unexpectedly leap forward
* http://support.microsoft.com/default.aspx?scid=KB;EN-US;Q274323
*/
{
/*
* Compare elapsed time reported by timestamp with actual elapsed
* time. If the difference is too excessive, then we use system
* time instead.
*/
/* MIN_DIFF needs to be large enough so that "normal" diff caused
* by system activity or context switch doesn't trigger the time
* correction.
*/
enum { MIN_DIFF = 400 };
pj_time_val ts_time, elapsed, diff;
pj_gettimeofday(&elapsed);
ts_time.sec = ntp->hi - sess->tv_base.sec - JAN_1970;
ts_time.msec = (long)(ntp->lo * 1000.0 / 0xFFFFFFFF);
PJ_TIME_VAL_SUB(elapsed, sess->tv_base);
if (PJ_TIME_VAL_LT(ts_time, elapsed)) {
diff = elapsed;
PJ_TIME_VAL_SUB(diff, ts_time);
} else {
diff = ts_time;
PJ_TIME_VAL_SUB(diff, elapsed);
}
if (PJ_TIME_VAL_MSEC(diff) >= MIN_DIFF) {
TRACE_((sess->name, "RTCP NTP timestamp corrected by %d ms",
PJ_TIME_VAL_MSEC(diff)));
ntp->hi = elapsed.sec + sess->tv_base.sec + JAN_1970;
ntp->lo = (elapsed.msec * 65536 / 1000) << 16;
}
}
#endif
return status;
}
/*
* Initialize RTCP session setting.
*/
PJ_DEF(void) pjmedia_rtcp_session_setting_default(
pjmedia_rtcp_session_setting *settings)
{
pj_bzero(settings, sizeof(*settings));
}
/*
* Initialize bidirectional RTCP statistics.
*
*/
PJ_DEF(void) pjmedia_rtcp_init_stat(pjmedia_rtcp_stat *stat)
{
pj_time_val now;
pj_assert(stat);
pj_bzero(stat, sizeof(pjmedia_rtcp_stat));
pj_math_stat_init(&stat->rtt);
pj_math_stat_init(&stat->rx.loss_period);
pj_math_stat_init(&stat->rx.jitter);
pj_math_stat_init(&stat->tx.loss_period);
pj_math_stat_init(&stat->tx.jitter);
#if defined(PJMEDIA_RTCP_STAT_HAS_IPDV) && PJMEDIA_RTCP_STAT_HAS_IPDV!=0
pj_math_stat_init(&stat->rx_ipdv);
#endif
#if defined(PJMEDIA_RTCP_STAT_HAS_RAW_JITTER) && PJMEDIA_RTCP_STAT_HAS_RAW_JITTER!=0
pj_math_stat_init(&stat->rx_raw_jitter);
#endif
pj_gettimeofday(&now);
stat->start = now;
}
/*
* Initialize RTCP session.
*/
PJ_DEF(void) pjmedia_rtcp_init(pjmedia_rtcp_session *sess,
char *name,
unsigned clock_rate,
unsigned samples_per_frame,
pj_uint32_t ssrc)
{
pjmedia_rtcp_session_setting settings;
pjmedia_rtcp_session_setting_default(&settings);
settings.name = name;
settings.clock_rate = clock_rate;
settings.samples_per_frame = samples_per_frame;
settings.ssrc = ssrc;
pjmedia_rtcp_init2(sess, &settings);
}
/*
* Initialize RTCP session.
*/
PJ_DEF(void) pjmedia_rtcp_init2( pjmedia_rtcp_session *sess,
const pjmedia_rtcp_session_setting *settings)
{
pjmedia_rtcp_sr_pkt *sr_pkt = &sess->rtcp_sr_pkt;
pj_time_val now;
/* Memset everything */
pj_bzero(sess, sizeof(pjmedia_rtcp_session));
/* Last RX timestamp in RTP packet */
sess->rtp_last_ts = (unsigned)-1;
/* Name */
sess->name = settings->name ? settings->name : (char*)THIS_FILE;
/* Set clock rate */
sess->clock_rate = settings->clock_rate;
sess->pkt_size = settings->samples_per_frame;
/* Init common RTCP SR header */
sr_pkt->common.version = 2;
sr_pkt->common.count = 1;
sr_pkt->common.pt = RTCP_SR;
sr_pkt->common.length = pj_htons(12);
sr_pkt->common.ssrc = pj_htonl(settings->ssrc);
/* Copy to RTCP RR header */
pj_memcpy(&sess->rtcp_rr_pkt.common, &sr_pkt->common,
sizeof(pjmedia_rtcp_common));
sess->rtcp_rr_pkt.common.pt = RTCP_RR;
sess->rtcp_rr_pkt.common.length = pj_htons(7);
/* Get time and timestamp base and frequency */
pj_gettimeofday(&now);
sess->tv_base = now;
pj_get_timestamp(&sess->ts_base);
pj_get_timestamp_freq(&sess->ts_freq);
sess->rtp_ts_base = settings->rtp_ts_base;
/* Initialize statistics states */
pjmedia_rtcp_init_stat(&sess->stat);
/* RR will be initialized on receipt of the first RTP packet. */
}
PJ_DEF(void) pjmedia_rtcp_fini(pjmedia_rtcp_session *sess)
{
#if defined(PJMEDIA_HAS_RTCP_XR) && (PJMEDIA_HAS_RTCP_XR != 0)
pjmedia_rtcp_xr_fini(&sess->xr_session);
#else
/* Nothing to do. */
PJ_UNUSED_ARG(sess);
#endif
}
static void rtcp_init_seq(pjmedia_rtcp_session *sess)
{
sess->received = 0;
sess->exp_prior = 0;
sess->rx_prior = 0;
sess->transit = 0;
sess->jitter = 0;
}
PJ_DEF(void) pjmedia_rtcp_rx_rtp( pjmedia_rtcp_session *sess,
unsigned seq,
unsigned rtp_ts,
unsigned payload)
{
pjmedia_rtcp_rx_rtp2(sess, seq, rtp_ts, payload, PJ_FALSE);
}
PJ_DEF(void) pjmedia_rtcp_rx_rtp2(pjmedia_rtcp_session *sess,
unsigned seq,
unsigned rtp_ts,
unsigned payload,
pj_bool_t discarded)
{
pj_timestamp ts;
pj_uint32_t arrival;
pj_int32_t transit;
pjmedia_rtp_status seq_st;
unsigned last_seq;
#if !defined(PJMEDIA_HAS_RTCP_XR) || (PJMEDIA_HAS_RTCP_XR == 0)
PJ_UNUSED_ARG(discarded);
#endif
if (sess->stat.rx.pkt == 0) {
/* Init sequence for the first time. */
pjmedia_rtp_seq_init(&sess->seq_ctrl, (pj_uint16_t)seq);
}
sess->stat.rx.pkt++;
sess->stat.rx.bytes += payload;
/* Process the RTP packet. */
last_seq = sess->seq_ctrl.max_seq;
pjmedia_rtp_seq_update(&sess->seq_ctrl, (pj_uint16_t)seq, &seq_st);
if (seq_st.status.flag.restart) {
rtcp_init_seq(sess);
}
if (seq_st.status.flag.dup) {
sess->stat.rx.dup++;
TRACE_((sess->name, "Duplicate packet detected"));
}
if (seq_st.status.flag.outorder && !seq_st.status.flag.probation) {
sess->stat.rx.reorder++;
TRACE_((sess->name, "Out-of-order packet detected"));
}
if (seq_st.status.flag.bad) {
sess->stat.rx.discard++;
#if defined(PJMEDIA_HAS_RTCP_XR) && (PJMEDIA_HAS_RTCP_XR != 0)
pjmedia_rtcp_xr_rx_rtp(&sess->xr_session, seq,
-1, /* lost */
(seq_st.status.flag.dup? 1:0), /* dup */
(!seq_st.status.flag.dup? 1:-1), /* discard */
-1, /* jitter */
-1, 0); /* toh */
#endif
TRACE_((sess->name, "Bad packet discarded"));
return;
}
/* Only mark "good" packets */
++sess->received;
/* Calculate loss periods. */
if (seq_st.diff > 1) {
unsigned count = seq_st.diff - 1;
unsigned period;
period = count * sess->pkt_size * 1000 / sess->clock_rate;
period *= 1000;
/* Update packet lost.
* The packet lost number will also be updated when we're sending
* outbound RTCP RR.
*/
sess->stat.rx.loss += (seq_st.diff - 1);
TRACE_((sess->name, "%d packet(s) lost", seq_st.diff - 1));
/* Update loss period stat */
pj_math_stat_update(&sess->stat.rx.loss_period, period);
}
/*
* Calculate jitter only when sequence is good (see RFC 3550 section A.8),
* AND only when the timestamp is different than the last packet
* (see RTP FAQ).
*/
if (seq_st.diff == 1 && rtp_ts != sess->rtp_last_ts) {
/* Get arrival time and convert timestamp to samples */
pj_get_timestamp(&ts);
ts.u64 = ts.u64 * sess->clock_rate / sess->ts_freq.u64;
arrival = ts.u32.lo;
transit = arrival - rtp_ts;
/* Ignore the first N packets as they normally have bad jitter
* due to other threads working to establish the call
*/
if (sess->transit == 0 ||
sess->received < PJMEDIA_RTCP_IGNORE_FIRST_PACKETS)
{
sess->transit = transit;
sess->stat.rx.jitter.min = (unsigned)-1;
} else {
pj_int32_t d;
pj_uint32_t jitter;
d = transit - sess->transit;
if (d < 0)
d = -d;
sess->jitter += d - ((sess->jitter + 8) >> 4);
/* Update jitter stat */
jitter = sess->jitter >> 4;
/* Convert jitter unit from samples to usec */
if (jitter < 4294)
jitter = jitter * 1000000 / sess->clock_rate;
else {
jitter = jitter * 1000 / sess->clock_rate;
jitter *= 1000;
}
pj_math_stat_update(&sess->stat.rx.jitter, jitter);
#if defined(PJMEDIA_RTCP_STAT_HAS_RAW_JITTER) && PJMEDIA_RTCP_STAT_HAS_RAW_JITTER!=0
{
pj_uint32_t raw_jitter;
/* Convert raw jitter unit from samples to usec */
if (d < 4294)
raw_jitter = d * 1000000 / sess->clock_rate;
else {
raw_jitter = d * 1000 / sess->clock_rate;
raw_jitter *= 1000;
}
/* Update jitter stat */
pj_math_stat_update(&sess->stat.rx_raw_jitter, raw_jitter);
}
#endif
#if defined(PJMEDIA_RTCP_STAT_HAS_IPDV) && PJMEDIA_RTCP_STAT_HAS_IPDV!=0
{
pj_int32_t ipdv;
ipdv = transit - sess->transit;
/* Convert IPDV unit from samples to usec */
if (ipdv > -2147 && ipdv < 2147)
ipdv = ipdv * 1000000 / (int)sess->clock_rate;
else {
ipdv = ipdv * 1000 / (int)sess->clock_rate;
ipdv *= 1000;
}
/* Update jitter stat */
pj_math_stat_update(&sess->stat.rx_ipdv, ipdv);
}
#endif
#if defined(PJMEDIA_HAS_RTCP_XR) && (PJMEDIA_HAS_RTCP_XR != 0)
pjmedia_rtcp_xr_rx_rtp(&sess->xr_session, seq,
0, /* lost */
0, /* dup */
discarded, /* discard */
(sess->jitter >> 4), /* jitter */
-1, 0); /* toh */
#endif
/* Update session transit */
sess->transit = transit;
}
#if defined(PJMEDIA_HAS_RTCP_XR) && (PJMEDIA_HAS_RTCP_XR != 0)
} else if (seq_st.diff > 1) {
int i;
/* Report RTCP XR about packet losses */
for (i=seq_st.diff-1; i>0; --i) {
pjmedia_rtcp_xr_rx_rtp(&sess->xr_session, seq - i,
1, /* lost */
0, /* dup */
0, /* discard */
-1, /* jitter */
-1, 0); /* toh */
}
/* Report RTCP XR this packet */
pjmedia_rtcp_xr_rx_rtp(&sess->xr_session, seq,
0, /* lost */
0, /* dup */
discarded, /* discard */
-1, /* jitter */
-1, 0); /* toh */
#endif
}
/* Update timestamp of last RX RTP packet */
sess->rtp_last_ts = rtp_ts;
}
PJ_DEF(void) pjmedia_rtcp_tx_rtp(pjmedia_rtcp_session *sess,
unsigned bytes_payload_size)
{
/* Update statistics */
sess->stat.tx.pkt++;
sess->stat.tx.bytes += bytes_payload_size;
}
static void parse_rtcp_report( pjmedia_rtcp_session *sess,
const void *pkt,
pj_size_t size)
{
pjmedia_rtcp_common *common = (pjmedia_rtcp_common*) pkt;
const pjmedia_rtcp_rr *rr = NULL;
const pjmedia_rtcp_sr *sr = NULL;
pj_uint32_t last_loss, jitter_samp, jitter;
/* Parse RTCP */
if (common->pt == RTCP_SR) {
sr = (pjmedia_rtcp_sr*) (((char*)pkt) + sizeof(pjmedia_rtcp_common));
if (common->count > 0 && size >= (sizeof(pjmedia_rtcp_sr_pkt))) {
rr = (pjmedia_rtcp_rr*)(((char*)pkt) + (sizeof(pjmedia_rtcp_common)
+ sizeof(pjmedia_rtcp_sr)));
}
} else if (common->pt == RTCP_RR && common->count > 0) {
rr = (pjmedia_rtcp_rr*)(((char*)pkt) + sizeof(pjmedia_rtcp_common));
#if defined(PJMEDIA_HAS_RTCP_XR) && (PJMEDIA_HAS_RTCP_XR != 0)
} else if (common->pt == RTCP_XR) {
if (sess->xr_enabled)
pjmedia_rtcp_xr_rx_rtcp_xr(&sess->xr_session, pkt, size);
return;
#endif
}
if (sr) {
/* Save LSR from NTP timestamp of RTCP packet */
sess->rx_lsr = ((pj_ntohl(sr->ntp_sec) & 0x0000FFFF) << 16) |
((pj_ntohl(sr->ntp_frac) >> 16) & 0xFFFF);
/* Calculate SR arrival time for DLSR */
pj_get_timestamp(&sess->rx_lsr_time);
TRACE_((sess->name, "Rx RTCP SR: ntp_ts=%p",
sess->rx_lsr,
(pj_uint32_t)(sess->rx_lsr_time.u64*65536/sess->ts_freq.u64)));
}
/* Nothing more to do if there's no RR packet */
if (rr == NULL)
return;
last_loss = sess->stat.tx.loss;
/* Get packet loss */
sess->stat.tx.loss = (rr->total_lost_2 << 16) +
(rr->total_lost_1 << 8) +
rr->total_lost_0;
TRACE_((sess->name, "Rx RTCP RR: total_lost_2=%x, 1=%x, 0=%x, lost=%d",
(int)rr->total_lost_2,
(int)rr->total_lost_1,
(int)rr->total_lost_0,
sess->stat.tx.loss));
/* We can't calculate the exact loss period for TX, so just give the
* best estimation.
*/
if (sess->stat.tx.loss > last_loss) {
unsigned period;
/* Loss period in msec */
period = (sess->stat.tx.loss - last_loss) * sess->pkt_size *
1000 / sess->clock_rate;
/* Loss period in usec */
period *= 1000;
/* Update loss period stat */
pj_math_stat_update(&sess->stat.tx.loss_period, period);
}
/* Get jitter value in usec */
jitter_samp = pj_ntohl(rr->jitter);
/* Calculate jitter in usec, avoiding overflows */
if (jitter_samp <= 4294)
jitter = jitter_samp * 1000000 / sess->clock_rate;
else {
jitter = jitter_samp * 1000 / sess->clock_rate;
jitter *= 1000;
}
/* Update jitter statistics */
pj_math_stat_update(&sess->stat.tx.jitter, jitter);
/* Can only calculate if LSR and DLSR is present in RR */
if (rr->lsr && rr->dlsr) {
pj_uint32_t lsr, now, dlsr;
pj_uint64_t eedelay;
pjmedia_rtcp_ntp_rec ntp;
/* LSR is the middle 32bit of NTP. It has 1/65536 second
* resolution
*/
lsr = pj_ntohl(rr->lsr);
/* DLSR is delay since LSR, also in 1/65536 resolution */
dlsr = pj_ntohl(rr->dlsr);
/* Get current time, and convert to 1/65536 resolution */
pjmedia_rtcp_get_ntp_time(sess, &ntp);
now = ((ntp.hi & 0xFFFF) << 16) + (ntp.lo >> 16);
/* End-to-end delay is (now-lsr-dlsr) */
eedelay = now - lsr - dlsr;
/* Convert end to end delay to usec (keeping the calculation in
* 64bit space)::
* sess->ee_delay = (eedelay * 1000) / 65536;
*/
if (eedelay < 4294) {
eedelay = (eedelay * 1000000) >> 16;
} else {
eedelay = (eedelay * 1000) >> 16;
eedelay *= 1000;
}
TRACE_((sess->name, "Rx RTCP RR: lsr=%p, dlsr=%p (%d:%03dms), "
"now=%p, rtt=%p",
lsr, dlsr, dlsr/65536, (dlsr%65536)*1000/65536,
now, (pj_uint32_t)eedelay));
/* Only save calculation if "now" is greater than lsr, or
* otherwise rtt will be invalid
*/
if (now-dlsr >= lsr) {
unsigned rtt = (pj_uint32_t)eedelay;
/* Check that eedelay value really makes sense.
* We allow up to 30 seconds RTT!
*/
if (eedelay > 30 * 1000 * 1000UL) {
TRACE_((sess->name, "RTT not making any sense, ignored.."));
goto end_rtt_calc;
}
#if defined(PJMEDIA_RTCP_NORMALIZE_FACTOR) && PJMEDIA_RTCP_NORMALIZE_FACTOR!=0
/* "Normalize" rtt value that is exceptionally high. For such
* values, "normalize" the rtt to be PJMEDIA_RTCP_NORMALIZE_FACTOR
* times the average value.
*/
if (rtt > ((unsigned)sess->stat.rtt.mean *
PJMEDIA_RTCP_NORMALIZE_FACTOR) && sess->stat.rtt.n!=0)
{
unsigned orig_rtt = rtt;
rtt = sess->stat.rtt.mean * PJMEDIA_RTCP_NORMALIZE_FACTOR;
PJ_LOG(5,(sess->name,
"RTT value %d usec is normalized to %d usec",
orig_rtt, rtt));
}
#endif
TRACE_((sess->name, "RTCP RTT is set to %d usec", rtt));
/* Update RTT stat */
pj_math_stat_update(&sess->stat.rtt, rtt);
} else {
PJ_LOG(5, (sess->name, "Internal RTCP NTP clock skew detected: "
"lsr=%p, now=%p, dlsr=%p (%d:%03dms), "
"diff=%d",
lsr, now, dlsr, dlsr/65536,
(dlsr%65536)*1000/65536,
dlsr-(now-lsr)));
}
}
end_rtt_calc:
pj_gettimeofday(&sess->stat.tx.update);
sess->stat.tx.update_cnt++;
}
static void parse_rtcp_sdes(pjmedia_rtcp_session *sess,
const void *pkt,
pj_size_t size)
{
pjmedia_rtcp_sdes *sdes = &sess->stat.peer_sdes;
char *p, *p_end;
char *b, *b_end;
p = (char*)pkt + 8;
p_end = (char*)pkt + size;
pj_bzero(sdes, sizeof(*sdes));
b = sess->stat.peer_sdes_buf_;
b_end = b + sizeof(sess->stat.peer_sdes_buf_);
while (p < p_end) {
pj_uint8_t sdes_type, sdes_len;
pj_str_t sdes_value = {NULL, 0};
sdes_type = *p++;
/* Check for end of SDES item list */
if (sdes_type == RTCP_SDES_NULL || p == p_end)
break;
sdes_len = *p++;
/* Check for corrupted SDES packet */
if (p + sdes_len > p_end)
break;
/* Get SDES item */
if (b + sdes_len < b_end) {
pj_memcpy(b, p, sdes_len);
sdes_value.ptr = b;
sdes_value.slen = sdes_len;
b += sdes_len;
} else {
/* Insufficient SDES buffer */
PJ_LOG(5, (sess->name,
"Unsufficient buffer to save RTCP SDES type %d:%.*s",
sdes_type, sdes_len, p));
p += sdes_len;
continue;
}
switch (sdes_type) {
case RTCP_SDES_CNAME:
sdes->cname = sdes_value;
break;
case RTCP_SDES_NAME:
sdes->name = sdes_value;
break;
case RTCP_SDES_EMAIL:
sdes->email = sdes_value;
break;
case RTCP_SDES_PHONE:
sdes->phone = sdes_value;
break;
case RTCP_SDES_LOC:
sdes->loc = sdes_value;
break;
case RTCP_SDES_TOOL:
sdes->tool = sdes_value;
break;
case RTCP_SDES_NOTE:
sdes->note = sdes_value;
break;
default:
TRACE_((sess->name, "Received unknown RTCP SDES type %d:%.*s",
sdes_type, sdes_value.slen, sdes_value.ptr));
break;
}
p += sdes_len;
}
}
static void parse_rtcp_bye(pjmedia_rtcp_session *sess,
const void *pkt,
pj_size_t size)
{
pj_str_t reason = {"-", 1};
/* Check and get BYE reason */
if (size > 8) {
reason.slen = PJ_MIN(sizeof(sess->stat.peer_sdes_buf_),
*((pj_uint8_t*)pkt+8));
pj_memcpy(sess->stat.peer_sdes_buf_, ((pj_uint8_t*)pkt+9),
reason.slen);
reason.ptr = sess->stat.peer_sdes_buf_;
}
/* Just print RTCP BYE log */
PJ_LOG(5, (sess->name, "Received RTCP BYE, reason: %.*s",
reason.slen, reason.ptr));
}
PJ_DEF(void) pjmedia_rtcp_rx_rtcp( pjmedia_rtcp_session *sess,
const void *pkt,
pj_size_t size)
{
pj_uint8_t *p, *p_end;
p = (pj_uint8_t*)pkt;
p_end = p + size;
while (p < p_end) {
pjmedia_rtcp_common *common = (pjmedia_rtcp_common*)p;
unsigned len;
len = (pj_ntohs((pj_uint16_t)common->length)+1) * 4;
switch(common->pt) {
case RTCP_SR:
case RTCP_RR:
case RTCP_XR:
parse_rtcp_report(sess, p, len);
break;
case RTCP_SDES:
parse_rtcp_sdes(sess, p, len);
break;
case RTCP_BYE:
parse_rtcp_bye(sess, p, len);
break;
default:
/* Ignore unknown RTCP */
TRACE_((sess->name, "Received unknown RTCP packet type=%d",
common->pt));
break;
}
p += len;
}
}
PJ_DEF(void) pjmedia_rtcp_build_rtcp(pjmedia_rtcp_session *sess,
void **ret_p_pkt, int *len)
{
pj_uint32_t expected, expected_interval, received_interval, lost_interval;
pjmedia_rtcp_common *common;
pjmedia_rtcp_sr *sr;
pjmedia_rtcp_rr *rr;
pj_timestamp ts_now;
pjmedia_rtcp_ntp_rec ntp;
/* Get current NTP time. */
pj_get_timestamp(&ts_now);
pjmedia_rtcp_get_ntp_time(sess, &ntp);
/* See if we have transmitted RTP packets since last time we
* sent RTCP SR.
*/
if (sess->stat.tx.pkt != pj_ntohl(sess->rtcp_sr_pkt.sr.sender_pcount)) {
pj_time_val ts_time;
pj_uint32_t rtp_ts;
/* So we should send RTCP SR */
*ret_p_pkt = (void*) &sess->rtcp_sr_pkt;
*len = sizeof(pjmedia_rtcp_sr_pkt);
common = &sess->rtcp_sr_pkt.common;
rr = &sess->rtcp_sr_pkt.rr;
sr = &sess->rtcp_sr_pkt.sr;
/* Update packet count */
sr->sender_pcount = pj_htonl(sess->stat.tx.pkt);
/* Update octets count */
sr->sender_bcount = pj_htonl(sess->stat.tx.bytes);
/* Fill in NTP timestamp in SR. */
sr->ntp_sec = pj_htonl(ntp.hi);
sr->ntp_frac = pj_htonl(ntp.lo);
/* Fill in RTP timestamp (corresponds to NTP timestamp) in SR. */
ts_time.sec = ntp.hi - sess->tv_base.sec - JAN_1970;
ts_time.msec = (long)(ntp.lo * 1000.0 / 0xFFFFFFFF);
rtp_ts = sess->rtp_ts_base +
(pj_uint32_t)(sess->clock_rate*ts_time.sec) +
(pj_uint32_t)(sess->clock_rate*ts_time.msec/1000);
sr->rtp_ts = pj_htonl(rtp_ts);
TRACE_((sess->name, "TX RTCP SR: ntp_ts=%p",
((ntp.hi & 0xFFFF) << 16) + ((ntp.lo & 0xFFFF0000)
>> 16)));
} else {
/* We should send RTCP RR then */
*ret_p_pkt = (void*) &sess->rtcp_rr_pkt;
*len = sizeof(pjmedia_rtcp_rr_pkt);
common = &sess->rtcp_rr_pkt.common;
rr = &sess->rtcp_rr_pkt.rr;
sr = NULL;
}
/* SSRC and last_seq */
rr->ssrc = pj_htonl(sess->peer_ssrc);
rr->last_seq = (sess->seq_ctrl.cycles & 0xFFFF0000L);
/* Since this is an "+=" operation, make sure we update last_seq on
* both RR and SR.
*/
sess->rtcp_sr_pkt.rr.last_seq += sess->seq_ctrl.max_seq;
sess->rtcp_rr_pkt.rr.last_seq += sess->seq_ctrl.max_seq;
rr->last_seq = pj_htonl(rr->last_seq);
/* Jitter */
rr->jitter = pj_htonl(sess->jitter >> 4);
/* Total lost. */
expected = pj_ntohl(rr->last_seq) - sess->seq_ctrl.base_seq;
/* This is bug: total lost already calculated on each incoming RTP!
if (expected >= sess->received)
sess->stat.rx.loss = expected - sess->received;
else
sess->stat.rx.loss = 0;
*/
rr->total_lost_2 = (sess->stat.rx.loss >> 16) & 0xFF;
rr->total_lost_1 = (sess->stat.rx.loss >> 8) & 0xFF;
rr->total_lost_0 = (sess->stat.rx.loss & 0xFF);
/* Fraction lost calculation */
expected_interval = expected - sess->exp_prior;
sess->exp_prior = expected;
received_interval = sess->received - sess->rx_prior;
sess->rx_prior = sess->received;
if (expected_interval >= received_interval)
lost_interval = expected_interval - received_interval;
else
lost_interval = 0;
if (expected_interval==0 || lost_interval == 0) {
rr->fract_lost = 0;
} else {
rr->fract_lost = (lost_interval << 8) / expected_interval;
}
if (sess->rx_lsr_time.u64 == 0 || sess->rx_lsr == 0) {
rr->lsr = 0;
rr->dlsr = 0;
} else {
pj_timestamp ts;
pj_uint32_t lsr = sess->rx_lsr;
pj_uint64_t lsr_time = sess->rx_lsr_time.u64;
pj_uint32_t dlsr;
/* Convert LSR time to 1/65536 seconds resolution */
lsr_time = (lsr_time << 16) / sess->ts_freq.u64;
/* Fill in LSR.
LSR is the middle 32bit of the last SR NTP time received.
*/
rr->lsr = pj_htonl(lsr);
/* Fill in DLSR.
DLSR is Delay since Last SR, in 1/65536 seconds.
*/
ts.u64 = ts_now.u64;
/* Convert interval to 1/65536 seconds value */
ts.u64 = (ts.u64 << 16) / sess->ts_freq.u64;
/* Get DLSR */
dlsr = (pj_uint32_t)(ts.u64 - lsr_time);
rr->dlsr = pj_htonl(dlsr);
TRACE_((sess->name,"Tx RTCP RR: lsr=%p, lsr_time=%p, now=%p, dlsr=%p"
"(%ds:%03dms)",
lsr,
(pj_uint32_t)lsr_time,
(pj_uint32_t)ts.u64,
dlsr,
dlsr/65536,
(dlsr%65536)*1000/65536 ));
}
/* Update counter */
pj_gettimeofday(&sess->stat.rx.update);
sess->stat.rx.update_cnt++;
}
PJ_DEF(pj_status_t) pjmedia_rtcp_build_rtcp_sdes(
pjmedia_rtcp_session *session,
void *buf,
pj_size_t *length,
const pjmedia_rtcp_sdes *sdes)
{
pjmedia_rtcp_common *hdr;
pj_uint8_t *p;
pj_size_t len;
PJ_ASSERT_RETURN(session && buf && length && sdes, PJ_EINVAL);
/* Verify SDES item length */
if (sdes->cname.slen > 255 || sdes->name.slen > 255 ||
sdes->email.slen > 255 || sdes->phone.slen > 255 ||
sdes->loc.slen > 255 || sdes->tool.slen > 255 ||
sdes->note.slen > 255)
{
return PJ_EINVAL;
}
/* Verify buffer length */
len = sizeof(*hdr);
if (sdes->cname.slen) len += sdes->cname.slen + 2;
if (sdes->name.slen) len += sdes->name.slen + 2;
if (sdes->email.slen) len += sdes->email.slen + 2;
if (sdes->phone.slen) len += sdes->phone.slen + 2;
if (sdes->loc.slen) len += sdes->loc.slen + 2;
if (sdes->tool.slen) len += sdes->tool.slen + 2;
if (sdes->note.slen) len += sdes->note.slen + 2;
len++; /* null termination */
len = ((len+3)/4) * 4;
if (len > *length)
return PJ_ETOOSMALL;
/* Build RTCP SDES header */
hdr = (pjmedia_rtcp_common*)buf;
pj_memcpy(hdr, &session->rtcp_sr_pkt.common, sizeof(*hdr));
hdr->pt = RTCP_SDES;
hdr->length = pj_htons((pj_uint16_t)(len/4 - 1));
/* Build RTCP SDES items */
p = (pj_uint8_t*)hdr + sizeof(*hdr);
#define BUILD_SDES_ITEM(SDES_NAME, SDES_TYPE) \
if (sdes->SDES_NAME.slen) { \
*p++ = SDES_TYPE; \
*p++ = (pj_uint8_t)sdes->SDES_NAME.slen; \
pj_memcpy(p, sdes->SDES_NAME.ptr, sdes->SDES_NAME.slen); \
p += sdes->SDES_NAME.slen; \
}
BUILD_SDES_ITEM(cname, RTCP_SDES_CNAME);
BUILD_SDES_ITEM(name, RTCP_SDES_NAME);
BUILD_SDES_ITEM(email, RTCP_SDES_EMAIL);
BUILD_SDES_ITEM(phone, RTCP_SDES_PHONE);
BUILD_SDES_ITEM(loc, RTCP_SDES_LOC);
BUILD_SDES_ITEM(tool, RTCP_SDES_TOOL);
BUILD_SDES_ITEM(note, RTCP_SDES_NOTE);
#undef BUILD_SDES_ITEM
/* Null termination */
*p++ = 0;
/* Pad to 32bit */
while ((p-(pj_uint8_t*)buf) % 4)
*p++ = 0;
/* Finally */
pj_assert((int)len == p-(pj_uint8_t*)buf);
*length = len;
return PJ_SUCCESS;
}
PJ_DEF(pj_status_t) pjmedia_rtcp_build_rtcp_bye(pjmedia_rtcp_session *session,
void *buf,
pj_size_t *length,
const pj_str_t *reason)
{
pjmedia_rtcp_common *hdr;
pj_uint8_t *p;
pj_size_t len;
PJ_ASSERT_RETURN(session && buf && length, PJ_EINVAL);
/* Verify BYE reason length */
if (reason && reason->slen > 255)
return PJ_EINVAL;
/* Verify buffer length */
len = sizeof(*hdr);
if (reason && reason->slen) len += reason->slen + 1;
len = ((len+3)/4) * 4;
if (len > *length)
return PJ_ETOOSMALL;
/* Build RTCP BYE header */
hdr = (pjmedia_rtcp_common*)buf;
pj_memcpy(hdr, &session->rtcp_sr_pkt.common, sizeof(*hdr));
hdr->pt = RTCP_BYE;
hdr->length = pj_htons((pj_uint16_t)(len/4 - 1));
/* Write RTCP BYE reason */
p = (pj_uint8_t*)hdr + sizeof(*hdr);
if (reason && reason->slen) {
*p++ = (pj_uint8_t)reason->slen;
pj_memcpy(p, reason->ptr, reason->slen);
p += reason->slen;
}
/* Pad to 32bit */
while ((p-(pj_uint8_t*)buf) % 4)
*p++ = 0;
pj_assert((int)len == p-(pj_uint8_t*)buf);
*length = len;
return PJ_SUCCESS;
}
PJ_DEF(pj_status_t) pjmedia_rtcp_enable_xr( pjmedia_rtcp_session *sess,
pj_bool_t enable)
{
#if defined(PJMEDIA_HAS_RTCP_XR) && (PJMEDIA_HAS_RTCP_XR != 0)
/* Check if request won't change anything */
if (!(enable ^ sess->xr_enabled))
return PJ_SUCCESS;
if (!enable) {
sess->xr_enabled = PJ_FALSE;
return PJ_SUCCESS;
}
pjmedia_rtcp_xr_init(&sess->xr_session, sess, 0, 1);
sess->xr_enabled = PJ_TRUE;
return PJ_SUCCESS;
#else
PJ_UNUSED_ARG(sess);
PJ_UNUSED_ARG(enable);
return PJ_ENOTSUP;
#endif
}