[asterisk-commits] oej: branch oej/pinefrog-rtcp-11 r383048 - in /team/oej/pinefrog-rtcp-11: ./ ...
SVN commits to the Asterisk project
asterisk-commits at lists.digium.com
Thu Mar 14 06:20:39 CDT 2013
Author: oej
Date: Thu Mar 14 06:20:36 2013
New Revision: 383048
URL: http://svnview.digium.com/svn/asterisk?view=rev&rev=383048
Log:
And here are the missing files you did not discover that you missed.
Added:
team/oej/pinefrog-rtcp-11/README.pinefrog-rtcp (with props)
team/oej/pinefrog-rtcp-11/channels/sip/include/rtcp.h (with props)
team/oej/pinefrog-rtcp-11/channels/sip/rtcp.c (with props)
Added: team/oej/pinefrog-rtcp-11/README.pinefrog-rtcp
URL: http://svnview.digium.com/svn/asterisk/team/oej/pinefrog-rtcp-11/README.pinefrog-rtcp?view=auto&rev=383048
==============================================================================
--- team/oej/pinefrog-rtcp-11/README.pinefrog-rtcp (added)
+++ team/oej/pinefrog-rtcp-11/README.pinefrog-rtcp Thu Mar 14 06:20:36 2013
@@ -1,0 +1,162 @@
+Olle E. Johansson
+oej at edvina.net
+
+2013-03-14
+
+
+
+
+
+
+Pinefrog - RTCP cleanup and additions
+-------------------------------------
+
+This branch is aimed at porting the code in pinefrog-1.4, which is now a few years old,
+to Asterisk 1.8 and hopefully (with some help) to Asterisk trunk to be integrated.
+The 1.4 code has been running in production for years in universities, call centers
+and service providers.
+
+The 1.8 port of Pinefrog is supported by Nordicom, Norway (http://www.nordicom.no).
+The 1.4 work was sponsored by several companies, including ClearIT AB, Sweden.
+
+Status of 11 port
+------------------
+2013-03-13 Started
+
+Todo for 11
+------------
+DONE: - Add support of outbound and inbound SDES. The SDES includes a stream identifier, CNAME.
+DONE: - Add support of outbound SDES end and goodbye
+DONE: - Add manager events at end-of call
+DONE: - Add realtime storage of RTCP reports
+DONE: - Add time manager events (configured in sip.conf)
+DONE: - Add more information to RTCP debug
+DONE: - Add more data aggregation to ast_rtcp structure (from svn trunk really)
+- Add RTCP for p2p RTP bridges. Needs to be tested and validated.
+
+Background
+==========
+RTCP, as defined in RFC 3550, is a protocol that co-exists with RTP, the protocol used
+for realtime multimedia in VoIP. RTCP gives the endpoints a tool to exchange data about
+the media streams exchanged. As a result, both ends can get informaiton about the
+latency for data sent in both directions, packet loss and jitter for each media stream.
+
+A VoIP call is at least two media streams and they can have different properties in
+regards of quality. A router or switch in the middle could have a lot of outbound traffic,
+causing delays and possible packet loss. This might not affect inbound traffic.
+
+In Asterisk, the RTCP handler is part of the RTP module. The RTP module produces RTCP
+report that can be added to channel variables, cdr logs or sent through AMI.
+
+In 1.4, the data used is mostly based on the latest report, it's not aggregated. This
+is fixed in trunk.
+
+In both implementations (and the 1.6 releases in between) the RTCP support is not
+very complete.
+
+- It doesn't handle RTCP SDES packets
+- It doesn't send RTCP END packets at end of session
+- It doesn't handle receiving END packets
+- It doesn't handle re-invites in a good way.
+- It seems to mix sender and receiver reports, thus mixing data from two streams
+ - when does this happen, if at all?
+
+RTCP and NAT
+------------
+I suspect that RTCP doesn't traverse NAT very well in our implementation. For RTP,
+we start with sending media to probe NAT. I've added emtpy RTCP RR+SDES CNAME packets
+to start probing a NAT (if Asterisk is behind a NAT). I am afraid that very few devices
+do that early on.
+The idea is (like RTP)
+ - Send a few RTCP packets in the start of the session.
+ - The receiver can then apply symmetric RTCP and start sending to the NAT outside port
+ that we're sending from and we'll get their packets.
+
+Todo
+----
+- When CNAME changes, we have a different stream and need to restart the stats.
+ Should we add ability to produce multiple RTCP reports for one "call" and aggregate them?
+ The different parts might have different properties.
+- Document realtime storage format. Add missing fields.
+- BUG: RTCP is halted during hold. It should not stop.
+- During HOLD, send RTCP SR reports without report block, only the header and no chunks
+
+Open Issues
+-----------
+Bridged channel ID is hard to get.
+
+The CQR and the final manager report lacks the bridged channel identifiers in too many cases. One leg of
+the call gets it, but not both.
+This will affect realtime as well, so we need to copy the channel name to a stored variable while it exists.
+
+Do we have a counter of consecutive lost packets? How do we measure lost packets on inbound
+stream? Gaps in seq numbers or just the sender reports from the other end compared with received
+no of packets?
+
+
+
+Ideas and thoughts for the future
+---------------------------------
+- Asterisk propagates jitter and packet loss over a bridge (especially the p2p RTP bridge).
+ If the call is transfered on the OTHER side of the bridge, we have a new call with new
+ properties. Maybe events like this should generate a new SDES and reset RTCP?
+ Part A of the call can have very different properties than part B. If I have a call with
+ someone internally, that then transfers me to a call with someone on the Internet, the
+ call quality (jitter etc) will change dramatically. This will require some sort of CONTROL
+ packet over the bridge, informing about changes on the other side of the bridge (masq).
+- Can we have some sort of ring buffer for the latest RTCP reports for a device (peer)
+ and use that to determine the status of the connection to the peer?
+- Can we use the RTCP APP packet for relaying events in joined bridges, like meetme?
+- What should we use as CNAME? Currently SIP call ID.
+- Separate on the IPs of different media servers. IE we can have one SIP peer with
+ multiple media IPs with different properties
+
+Scenarios to test
+------------------
+- normal bridged call
+- RTP p2p bridged call
+- Nat traversal - Asterisk outside of NAT and inside (as client to external service)
+- Call hold
+- Call with music-on-hold
+
+Database structure
+-------------------
+Example database schema for MySQL:
+
+CREATE TABLE `astcqr` (
+ `channel` varchar(50) NOT NULL,
+ `uniqueid` varchar(35) NOT NULL,
+ `bridgedchannel` varchar(50) NOT NULL,
+ `bridgeduniqueid` varchar(35) NOT NULL,
+ `pvtcallid` varchar(80) NOT NULL,
+ `rtpmedia` varchar(50) NOT NULL,
+ `localssrc` varchar(50) NOT NULL,
+ `remotessrc` varchar(50) NOT NULL,
+ `rtt` varchar(10) NOT NULL,
+ `localjitter` varchar(10) NOT NULL,
+ `remotejitter` varchar(10) NOT NULL,
+ `sendformat` varchar(10) NOT NULL,
+ `receiveformat` varchar(10) NOT NULL,
+ `rtcpstatus` varchar(10) NOT NULL,
+ `duration` varchar(10) NOT NULL,
+ `packetsent` varchar(30) NOT NULL,
+ `packetreceived` varchar(30) NOT NULL,
+ `packetlossin` varchar(30) NOT NULL,
+ `packetlossout` varchar(30) NOT NULL,
+ `rttmax` varchar(12) NOT NULL,
+ `rttmin` varchar(12) NOT NULL,
+ `writetranslator` varchar(15) NOT NULL,
+ `readtranslator` varchar(15) NOT NULL,
+ `writecost` varchar(10) NOT NULL,
+ `readcost` varchar(10) NOT NULL,
+ `remoteip` varchar(25) NOT NULL,
+ KEY `ChannelUnique` (`channel`,`uniqueid`)
+) ENGINE=MyISAM DEFAULT CHARSET=latin1 COMMENT='FOr pinefrog stats'
+
+Realtime configuration
+========================
+In extconfig.conf add
+
+rtpcqr => mysql,asterisk,astcqr
+
+
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Added: team/oej/pinefrog-rtcp-11/channels/sip/include/rtcp.h
URL: http://svnview.digium.com/svn/asterisk/team/oej/pinefrog-rtcp-11/channels/sip/include/rtcp.h?view=auto&rev=383048
==============================================================================
--- team/oej/pinefrog-rtcp-11/channels/sip/include/rtcp.h (added)
+++ team/oej/pinefrog-rtcp-11/channels/sip/include/rtcp.h Thu Mar 14 06:20:36 2013
@@ -1,0 +1,50 @@
+/*
+ * Asterisk -- An open source telephony toolkit.
+ *
+ * Copyright (C) 2013 Olle E. Johansson, Edvina AB
+ *
+ * See http://www.asterisk.org for more information about
+ * the Asterisk project. Please do not directly contact
+ * any of the maintainers of this project for assistance;
+ * the project provides a web site, mailing lists and IRC
+ * channels for your use.
+ *
+ * This program is free software, distributed under the terms of
+ * the GNU General Public License Version 2. See the LICENSE file
+ * at the top of the source tree.
+ */
+
+/*! \file rtcp.h
+ *
+ * \brief RTCP additional functions
+ *
+ * \author Olle E. Johansson <oej at edvina.net>
+ */
+
+#include "asterisk.h"
+
+#include "asterisk/utils.h"
+#include "asterisk/rtp_engine.h"
+#include "sip.h"
+
+#ifndef _SIP_RTCP_H
+#define _SIP_RTCP_H
+
+/*! \brief Set various data items in the RTP structure, like channel identifier.
+ */
+void sip_rtcp_set_data(struct sip_pvt *dialog, struct ast_rtp_instance *instance, enum media_type type);
+
+int send_rtcp_events(const void *data);
+void start_rtcp_events(struct sip_pvt *dialog, struct ast_sched_context *sched);
+/*
+# For 1.4:
+# static void sip_rtcp_report(struct sip_pvt *p, struct ast_rtp *rtp, enum media_type type, int reporttype);
+*/
+
+void sip_rtcp_report(struct sip_pvt *dialog, struct ast_rtp_instance *instance, enum media_type type, int reporttype);
+//void qos_write_realtime(struct sip_pvt *dialog, struct ast_rtp_quality *qual);
+void qos_write_realtime(struct sip_pvt *dialog, struct ast_rtp_instance_stats *qual);
+
+
+
+#endif /* _SIP_RTCP_H */
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Added: team/oej/pinefrog-rtcp-11/channels/sip/rtcp.c
URL: http://svnview.digium.com/svn/asterisk/team/oej/pinefrog-rtcp-11/channels/sip/rtcp.c?view=auto&rev=383048
==============================================================================
--- team/oej/pinefrog-rtcp-11/channels/sip/rtcp.c (added)
+++ team/oej/pinefrog-rtcp-11/channels/sip/rtcp.c Thu Mar 14 06:20:36 2013
@@ -1,0 +1,382 @@
+/*
+* Asterisk -- An open source telephony toolkit.
+*
+* Copyright (C) 2013 Olle E. Johansson, Edvina AB
+*
+* See http://www.asterisk.org for more information about
+* the Asterisk project. Please do not directly contact
+* any of the maintainers of this project for assistance;
+* the project provides a web site, mailing lists and IRC
+* channels for your use.
+*
+* This program is free software, distributed under the terms of
+* the GNU General Public License Version 2. See the LICENSE file
+* at the top of the source tree.
+*/
+
+/*! \file rtcp.c
+*
+* \brief RTCP additional functions
+*
+* \author Olle E. Johansson <oej at edvina.net>
+*/
+
+/*** MODULEINFO
+ <support_level>core</support_level>
+***/
+
+#include "asterisk.h"
+
+ASTERISK_FILE_VERSION(__FILE__, "$Revision$")
+
+#include "asterisk/utils.h"
+#include "asterisk/manager.h"
+#include "asterisk/logger.h"
+#include "asterisk/translate.h"
+#include "asterisk/rtp_engine.h"
+#include "include/sip.h"
+#include "include/rtcp.h"
+
+/*! \brief Set various data items in the RTP structure, like channel identifier.
+ */
+void sip_rtcp_set_data(struct sip_pvt *dialog, struct ast_rtp_instance *instance, enum media_type type)
+{
+
+ if (dialog && dialog->owner) {
+ struct ast_channel *bridgepeer = ast_bridged_channel(dialog->owner);
+
+ if (bridgepeer) {
+ /* Store the bridged peer data while we have it */
+ ast_rtp_instance_set_bridged_chan(instance, ast_channel_name(dialog->owner), ast_channel_uniqueid(dialog->owner), S_OR(ast_channel_name(bridgepeer), ""), S_OR(ast_channel_uniqueid(bridgepeer), ""));
+ ast_debug(1, "---- Setting bridged peer name to %s\n", ast_channel_name(bridgepeer));
+ } else {
+ ast_rtp_instance_set_bridged_chan(instance, ast_channel_name(dialog->owner), ast_channel_uniqueid(dialog->owner), NULL, NULL);
+ }
+ ast_debug(1, "---- Setting channel name to %s\n", ast_channel_name(dialog->owner));
+
+ /* Try to find out if there's active transcoding */
+ /* Currently, the only media stream that has translation is the audio stream. At some point
+ we might have transcoding for other types of media. */
+ if (type == SDP_AUDIO) {
+ const char *rtname = NULL, *wtname = NULL;
+ struct ast_trans_pvt *rt, *wt;
+
+ /* if we have a translator, the bridge delay is increased, which affects the QoS of the call. */
+ rt = ast_channel_readtrans(dialog->owner);
+ wt = ast_channel_writetrans(dialog->owner);
+ if (rt) {
+ rtname = rt->t->name;
+ }
+ if (wt) {
+ wtname = wt->t->name;
+ }
+ if (rt || wt) {
+ ast_rtp_instance_set_translator(instance, rtname, rt ? rt->t->comp_cost : (const int) 0,
+ wtname, wt ? wt->t->comp_cost : (const int) 0);
+ }
+
+ if (option_debug > 1) {
+ if (rt && rt->t) {
+ ast_debug(1, "--- Audio Read translator: %s Cost %d\n", rt->t->name, rt->t->comp_cost);
+ }
+ if (wt && wt->t) {
+ ast_debug(1, "--- Audio Write translator: %s Cost %d\n", wt->t->name, wt->t->comp_cost);
+ }
+ }
+ }
+
+ } else {
+ ast_debug(1, "######## Not setting rtcp media data. Dialog %s Dialog owner %s \n", dialog ? "set" : "unset", dialog->owner ? "set" : "unset");
+ }
+}
+
+/*! \brief send manager report of RTCP
+ reporttype = 0 means report during call (if configured)
+ reporttype = 1 means endof-call (hangup) report
+ reporttype = 10 means report at end of call leg (like transfer)
+*/
+void sip_rtcp_report(struct sip_pvt *dialog, struct ast_rtp_instance *instance, enum media_type media, int reporttype)
+{
+ struct ast_rtp_instance_stats qual;
+ //char *rtpqstring = NULL;
+ //int qosrealtime = ast_check_realtime("rtpcqr");
+ unsigned int duration; /* Duration in secs */
+ memset(&qual, 0, sizeof(qual));
+
+ sip_rtcp_set_data(dialog, instance, media);
+
+ if (ast_rtp_instance_get_stats(instance, &qual, AST_RTP_INSTANCE_STAT_ALL)) {
+ ast_debug(1, "######## Did not get any statistics... bad, bad, RTP instance\n");
+ /* Houston, we got a problem */
+ return;
+ }
+
+ if (dialog->sip_cfg->rtcpevents) {
+ /*
+ If numberofreports == 0 we have no incoming RTCP active, thus we can't
+ get any reliable data to handle packet loss or any RTT timing.
+ */
+
+ duration = (unsigned int)(ast_tvdiff_ms(ast_tvnow(), qual.start) / 1000);
+ manager_event(EVENT_FLAG_CALL, "RTPQuality",
+ "Channel: %s\r\n" /* AST_CHANNEL for this call */
+ "Uniqueid: %s\r\n" /* AST_CHANNEL for this call */
+ "BridgedChannel: %s\r\n"
+ "BridgedUniqueid: %s\r\n"
+ "RTPreporttype: %s\r\n"
+ "RTPrtcpstatus: %s\r\n"
+ "Duration: %u\r\n" /* used in cdr_manager */
+ "PvtCallid: %s\r\n" /* ??? Generic PVT identifier */
+ "RTPipaddress: %s\r\n"
+ "RTPmedia: %s\r\n" /* Audio, video, text */
+ "RTPsendformat: %s\r\n"
+ "RTPrecvformat: %s\r\n"
+ "RTPlocalssrc: %u\r\n"
+ "RTPremotessrc: %u\r\n"
+ "RTPrtt: %f\r\n"
+ "RTPrttMax: %f\r\n"
+ "RTPrttMin: %f\r\n"
+ "RTPLocalJitter: %f\r\n"
+ "RTPRemoteJitter: %f\r\n"
+ "RTPInPacketLoss: %d\r\n"
+ "RTPInLocalPlPercent: %5.2f\r\n"
+ "RTPOutPacketLoss: %d\r\n"
+ "RTPOutPlPercent: %5.2f\r\n"
+ "TranslateRead: %s\r\n"
+ "TranslateReadCost: %d\r\n"
+ "TranslateWrite: %s\r\n"
+ "TranslateWriteCost: %d\r\n"
+ "\r\n",
+ dialog->owner ? ast_channel_name(dialog->owner) : "",
+ dialog->owner ? ast_channel_uniqueid(dialog->owner) : "",
+ qual.bridgedchannel[0] ? qual.bridgedchannel : "" ,
+ qual.bridgeduniqueid[0] ? qual.bridgeduniqueid : "",
+ reporttype == 1 ? "Final" : "Update",
+ qual.numberofreports == 0 ? "Inactive" : "Active",
+ duration,
+ dialog->callid,
+ ast_inet_ntoa(qual.them.sin_addr),
+ media == SDP_AUDIO ? "audio" : (media == SDP_VIDEO ? "video" : "fax") ,
+ ast_getformatname(&qual.lasttxformat),
+ ast_getformatname(&qual.lastrxformat),
+ qual.local_ssrc,
+ qual.remote_ssrc,
+ qual.rtt,
+ qual.maxrtt,
+ qual.minrtt,
+ qual.rxjitter,
+ qual.txjitter,
+ qual.rxploss,
+ /* The local counter of lost packets in inbound stream divided with received packets plus lost packets */
+ (qual.remote_txcount + qual.rxploss) > 0 ? (double) qual.rxploss / (qual.remote_txcount + qual.rxploss) * 100 : 0,
+ qual.txploss,
+ /* The remote counter of lost packets (if we got the reports)
+ divided with our counter of sent packets
+ */
+ (qual.rxcount + qual.txploss) > 0 ? (double) qual.txploss / qual.rxcount * 100 : 0,
+ qual.readtranslator, qual.readcost,
+ qual.writetranslator, qual.writecost
+ );
+ }
+
+ /* CDR records are not reliable when it comes to near-death-of-channel events, so we need to store the RTCP
+ report in realtime when we have it.
+ Tests have proven that storing to realtime from the call thread is NOT a good thing. Therefore, we just save
+ the quality report structure in the PVT and let the function that kills the pvt store the stuff in the
+ monitor thread instead.
+ */
+ if (reporttype == 1) {
+ ast_log(LOG_DEBUG, "---- Activation qual structure in dialog \n");
+ qual.end = ast_tvnow();
+ qual.mediatype = media;
+ if (media == SDP_AUDIO) { /* Audio */
+ dialog->audioqual = ast_calloc(1, sizeof(struct ast_rtp_instance_stats));
+ (* dialog->audioqual) = qual;
+ } else if (media == SDP_VIDEO) { /* Video */
+ dialog->videoqual = ast_calloc(1,sizeof(struct ast_rtp_instance_stats));
+ (* dialog->videoqual) = qual;
+ }
+ }
+}
+
+/*! \brief Write quality report to realtime storage */
+void qos_write_realtime(struct sip_pvt *dialog, struct ast_rtp_instance_stats *qual)
+{
+ unsigned int duration; /* Duration in secs */
+ char buf_duration[10], buf_lssrc[30], buf_rssrc[30];
+ char buf_rtt[10], buf_rttmin[10], buf_rttmax[10];
+ char localjitter[10], remotejitter[10];
+ char buf_readcost[5], buf_writecost[5];
+ char buf_mediatype[10];
+ char buf_remoteip[25];
+ char buf_inpacketloss[25], buf_outpacketloss[25];
+ char buf_outpackets[25], buf_inpackets[25];
+ int qosrealtime = ast_check_realtime("rtpcqr");
+
+
+ if (!qual) {
+ ast_log(LOG_ERROR, "No CQR data provided \n");
+ return;
+ }
+
+ /* Since the CDR is already gone, we need to calculate our own duration.
+ The CDR duration is the definitive resource for billing, this is
+ the RTP stream duration which may include early media (ringing and
+ provider messages). Only useful for measurements.
+ */
+ if (!ast_tvzero(qual->end) && !ast_tvzero(qual->start)) {
+ duration = (unsigned int)(ast_tvdiff_ms(qual->end, qual->start) / 1000);
+ } else {
+ ast_debug(2, "**** What? No duration? What type of call is THAT? \n");
+ duration = 0;
+ }
+
+ /* Realtime is based on strings, so let's make strings */
+ sprintf(localjitter, "%f", qual->rxjitter);
+ sprintf(remotejitter, "%f", qual->txjitter);
+ sprintf(buf_lssrc, "%u", qual->local_ssrc);
+ sprintf(buf_rssrc, "%u", qual->remote_ssrc);
+ sprintf(buf_rtt, "%.0f", qual->rtt);
+ sprintf(buf_rttmax, "%.0f", qual->maxrtt);
+ sprintf(buf_rttmin, "%.0f", qual->minrtt);
+ sprintf(buf_duration, "%u", duration);
+ sprintf(buf_readcost, "%d", qual->readcost);
+ sprintf(buf_writecost, "%d", qual->writecost);
+ sprintf(buf_mediatype,"%s", qual->mediatype == SDP_AUDIO ? "audio" : (qual->mediatype == SDP_VIDEO ? "video" : "fax") );
+ sprintf(buf_remoteip,"%s", ast_inet_ntoa(qual->them.sin_addr));
+ sprintf(buf_inpacketloss, "%d", qual->rxploss);
+ sprintf(buf_outpacketloss, "%d", qual->txploss);
+ sprintf(buf_inpackets, "%d", qual->rxcount); /* Silly value. Need to check this */
+ sprintf(buf_outpackets, "%d", qual->txcount);
+ //sprintf(buf_inpackets, "%d", qual->remote_count); /* Do check again */
+ //sprintf(buf_outpackets, "%d", qual->local_count);
+
+ ast_log(LOG_CQR, "CQR Channel: %s Uid %s Bch %s Buid %s Pvt %s Media %s Lssrc %s Rssrc %s Rip %s Rtt %s:%s:%s Ljitter %s Rjitter %s Rtcpstatus %s Dur %s Pout %s Plossout %s Pin %s Plossin %s\n",
+ qual->channel[0] ? qual->channel : "",
+ qual->uniqueid[0] ? qual->uniqueid : "",
+ qual->bridgedchannel[0] ? qual->bridgedchannel : "" ,
+ qual->bridgeduniqueid[0] ? qual->bridgeduniqueid : "",
+ dialog->callid,
+ buf_mediatype,
+ buf_lssrc,
+ buf_rssrc,
+ buf_remoteip,
+ buf_rtt, buf_rttmax, buf_rttmin,
+ localjitter,
+ remotejitter,
+ qual->numberofreports == 0 ? "Inactive" : "Active",
+ buf_duration,
+ buf_outpackets,
+ buf_outpacketloss,
+ buf_inpackets,
+ buf_inpacketloss);
+
+ if (!qosrealtime) {
+ return;
+ }
+/* Example database schema for MySQL:
+CREATE TABLE `astcqr` (
+ `channel` varchar(50) NOT NULL,
+ `uniqueid` varchar(35) NOT NULL,
+ `bridgedchannel` varchar(50) NOT NULL,
+ `bridgeduniqueid` varchar(35) NOT NULL,
+ `pvtcallid` varchar(80) NOT NULL,
+ `rtpmedia` varchar(50) NOT NULL,
+ `localssrc` varchar(50) NOT NULL,
+ `remotessrc` varchar(50) NOT NULL,
+ `rtt` varchar(10) NOT NULL,
+ `localjitter` varchar(10) NOT NULL,
+ `remotejitter` varchar(10) NOT NULL,
+ `sendformat` varchar(10) NOT NULL,
+ `receiveformat` varchar(10) NOT NULL,
+ `rtcpstatus` varchar(10) NOT NULL,
+ `duration` varchar(10) NOT NULL,
+ `packetsent` varchar(30) NOT NULL,
+ `packetreceived` varchar(30) NOT NULL,
+ `packetlossin` varchar(30) NOT NULL,
+ `packetlossout` varchar(30) NOT NULL,
+ `rttmax` varchar(12) NOT NULL,
+ `rttmin` varchar(12) NOT NULL,
+ `writetranslator` varchar(15) NOT NULL,
+ `readtranslator` varchar(15) NOT NULL,
+ `writecost` varchar(10) NOT NULL,
+ `readcost` varchar(10) NOT NULL,
+ `remoteip` varchar(25) NOT NULL,
+ KEY `ChannelUnique` (`channel`,`uniqueid`)
+) ENGINE=MyISAM DEFAULT CHARSET=latin1 COMMENT='FOr pinefrog stats'
+*/
+
+ ast_store_realtime("rtpcqr",
+ "channel", qual->channel[0] ? qual->channel : "--no channel--",
+ "uniqueid", qual->uniqueid[0] ? qual->uniqueid : "--no uniqueid --",
+ "bridgedchannel", qual->bridgedchannel[0] ? qual->bridgedchannel : "" ,
+ "bridgeduniqueid", qual->bridgeduniqueid[0] ? qual->bridgeduniqueid : "",
+ "pvtcallid", dialog->callid,
+ "rtpmedia", buf_mediatype,
+ "localssrc", buf_lssrc,
+ "remotessrc", buf_rssrc,
+ "remoteip", buf_remoteip,
+ "rtt", buf_rtt,
+ "rttmax", buf_rttmax,
+ "rttmin", buf_rttmin,
+ "localjitter", localjitter,
+ "remotejitter", remotejitter,
+ "sendformat", ast_getformatname(&qual->lasttxformat),
+ "receiveformat", ast_getformatname(&qual->lastrxformat),
+ "rtcpstatus", qual->numberofreports == 0 ? "Inactive" : "Active",
+ "duration", buf_duration,
+ "writetranslator", qual->writetranslator[0] ? qual->writetranslator : "",
+ "writecost", buf_writecost,
+ "readtranslator", qual->readtranslator[0] ? qual->readtranslator : "",
+ "readcost", buf_readcost,
+ "packetlossin", buf_inpacketloss,
+ "packetlossout", buf_outpacketloss,
+ "packetsent", buf_outpackets,
+ "packetreceived", buf_inpackets,
+ NULL);
+}
+
+/*! \brief Send RTCP manager events */
+int send_rtcp_events(const void *data)
+{
+ struct sip_pvt *dialog = (struct sip_pvt *) data;
+ ast_log(LOG_DEBUG, "***** SENDING RTCP EVENT \n");
+
+ if (dialog->rtp && !ast_rtp_instance_isactive(dialog->rtp)) {
+ ast_debug(1, " ***** Activating RTCP report \n");
+ sip_rtcp_report(dialog, dialog->rtp, SDP_AUDIO, FALSE);
+ } else {
+ ast_debug(1, " ***** NOT Activating RTCP report \n");
+ }
+ if (dialog->vrtp && !ast_rtp_instance_isactive(dialog->vrtp)) {
+ sip_rtcp_report(dialog, dialog->vrtp, SDP_VIDEO, FALSE);
+ }
+ return (dialog->sip_cfg ? dialog->sip_cfg->rtcptimer : 0);
+}
+
+/*! \brief Activate RTCP events at start of call */
+void start_rtcp_events(struct sip_pvt *dialog, struct ast_sched_context *sched)
+{
+ ast_debug(2, "***** STARTING SENDING RTCP EVENT \n");
+ /* Check if it's already active */
+
+ if (dialog->rtp && !ast_rtp_instance_isactive(dialog->rtp)) {
+ sip_rtcp_set_data(dialog, dialog->rtp, SDP_AUDIO);
+ }
+ if (dialog->vrtp && !ast_rtp_instance_isactive(dialog->vrtp)) {
+ sip_rtcp_set_data(dialog, dialog->vrtp, SDP_VIDEO);
+ }
+
+ if (!dialog->sip_cfg->rtcpevents || !dialog->sip_cfg->rtcptimer) {
+ ast_debug(2, "***** NOT SENDING RTCP EVENTS \n");
+ return;
+ }
+
+ if (dialog->rtcpeventid != -1) {
+ return;
+ }
+
+
+ /*! \brief Schedule events */
+ dialog->rtcpeventid = ast_sched_add(sched, dialog->sip_cfg->rtcptimer * 1000, send_rtcp_events, dialog);
+}
Propchange: team/oej/pinefrog-rtcp-11/channels/sip/rtcp.c
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Propchange: team/oej/pinefrog-rtcp-11/channels/sip/rtcp.c
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svn:keywords = Author Date Id Revision
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