// // ZoneMinder RTCP Class Implementation, $Date$, $Revision$ // Copyright (C) 2001-2008 Philip Coombes // // 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 "zm.h" #if HAVE_LIBAVFORMAT #include "zm_rtp_ctrl.h" #include "zm_time.h" #include "zm_rtsp.h" #include RtpCtrlThread::RtpCtrlThread( RtspThread &rtspThread, RtpSource &rtpSource ) : mRtspThread( rtspThread ), mRtpSource( rtpSource ), mStop( false ) { } int RtpCtrlThread::recvPacket( const unsigned char *packet, ssize_t packetLen ) { const RtcpPacket *rtcpPacket; rtcpPacket = (RtcpPacket *)packet; int consumed = 0; //printf( "C: " ); //for ( int i = 0; i < packetLen; i++ ) //printf( "%02x ", (unsigned char)packet[i] ); //printf( "\n" ); int ver = rtcpPacket->header.version; int count = rtcpPacket->header.count; int pt = rtcpPacket->header.pt; int len = ntohs(rtcpPacket->header.lenN); Debug( 5, "RTCP Ver: %d", ver ); Debug( 5, "RTCP Count: %d", count ); Debug( 5, "RTCP Pt: %d", pt ); Debug( 5, "RTCP len: %d", len ); switch( pt ) { case RTCP_SR : { U32 ssrc = ntohl(rtcpPacket->body.sr.ssrcN); Debug( 5, "RTCP Got SR (%lx)", ssrc ); if ( mRtpSource.getSsrc() ) { if ( ssrc != mRtpSource.getSsrc() ) { Warning( "Discarding packet for unrecognised ssrc %lx", ssrc ); return( -1 ); } } else if ( ssrc ) { mRtpSource.setSsrc( ssrc ); } if ( len > 1 ) { //printf( "NTPts:%d.%d, RTPts:%d\n", $ntptsmsb, $ntptslsb, $rtpts ); U16 ntptsmsb = ntohl(rtcpPacket->body.sr.ntpSecN); U16 ntptslsb = ntohl(rtcpPacket->body.sr.ntpFracN); //printf( "NTPts:%x.%04x, RTPts:%x\n", $ntptsmsb, $ntptslsb, $rtpts ); //printf( "Pkts:$sendpkts, Octs:$sendocts\n" ); U32 rtpTime = ntohl(rtcpPacket->body.sr.rtpTsN); mRtpSource.updateRtcpData( ntptsmsb, ntptslsb, rtpTime ); } break; } case RTCP_SDES : { ssize_t contentLen = packetLen - sizeof(rtcpPacket->header); while ( contentLen ) { Debug( 5, "RTCP CL: %d", contentLen ); U32 ssrc = ntohl(rtcpPacket->body.sdes.srcN); Debug( 5, "RTCP Got SDES (%lx), %d items", ssrc, count ); if ( mRtpSource.getSsrc() && (ssrc != mRtpSource.getSsrc()) ) { Warning( "Discarding packet for unrecognised ssrc %lx", ssrc ); return( -1 ); } unsigned char *sdesPtr = (unsigned char *)&rtcpPacket->body.sdes.item; for ( int i = 0; i < count; i++ ) { RtcpSdesItem *item = (RtcpSdesItem *)sdesPtr; Debug( 5, "RTCP Item length %d", item->len ); switch( item->type ) { case RTCP_SDES_CNAME : { std::string cname( item->data, item->len ); Debug( 5, "RTCP Got CNAME %s", cname.c_str() ); break; } case RTCP_SDES_END : case RTCP_SDES_NAME : case RTCP_SDES_EMAIL : case RTCP_SDES_PHONE : case RTCP_SDES_LOC : case RTCP_SDES_TOOL : case RTCP_SDES_NOTE : case RTCP_SDES_PRIV : default : { Error( "Received unexpected SDES item type %d, ignoring", item->type ); return( -1 ); } } int paddedLen = 4+2+item->len+1; // Add null byte paddedLen = (((paddedLen-1)/4)+1)*4; Debug( 5, "RTCP PL:%d", paddedLen ); sdesPtr += paddedLen; contentLen -= paddedLen; } } break; } case RTCP_BYE : { Debug( 5, "RTCP Got BYE" ); mStop = true; break; } case RTCP_RR : case RTCP_APP : default : { Error( "Received unexpected packet type %d, ignoring", pt ); return( -1 ); } } consumed = sizeof(U32)*(len+1); return( consumed ); } int RtpCtrlThread::generateRr( const unsigned char *packet, ssize_t packetLen ) { RtcpPacket *rtcpPacket = (RtcpPacket *)packet; int byteLen = sizeof(rtcpPacket->header)+sizeof(rtcpPacket->body.rr)+sizeof(rtcpPacket->body.rr.rr[0]); int wordLen = ((byteLen-1)/sizeof(U32))+1; rtcpPacket->header.version = RTP_VERSION; rtcpPacket->header.p = 0; rtcpPacket->header.pt = RTCP_RR; rtcpPacket->header.count = 1; rtcpPacket->header.lenN = htons(wordLen-1); mRtpSource.updateRtcpStats(); Debug( 5, "Ssrc = %ld", mRtspThread.getSsrc() ); Debug( 5, "Ssrc_1 = %ld", mRtpSource.getSsrc() ); Debug( 5, "Last Seq = %ld", mRtpSource.getMaxSeq() ); Debug( 5, "Jitter = %ld", mRtpSource.getJitter() ); Debug( 5, "Last SR = %ld", mRtpSource.getLastSrTimestamp() ); rtcpPacket->body.rr.ssrcN = htonl(mRtspThread.getSsrc()); rtcpPacket->body.rr.rr[0].ssrcN = htonl(mRtpSource.getSsrc()); rtcpPacket->body.rr.rr[0].lost = mRtpSource.getLostPackets(); rtcpPacket->body.rr.rr[0].fraction = mRtpSource.getLostFraction(); rtcpPacket->body.rr.rr[0].lastSeqN = htonl(mRtpSource.getMaxSeq()); rtcpPacket->body.rr.rr[0].jitterN = htonl(mRtpSource.getJitter()); rtcpPacket->body.rr.rr[0].lsrN = htonl(mRtpSource.getLastSrTimestamp()); rtcpPacket->body.rr.rr[0].dlsrN = 0; return( wordLen*sizeof(U32) ); } int RtpCtrlThread::generateSdes( const unsigned char *packet, ssize_t packetLen ) { RtcpPacket *rtcpPacket = (RtcpPacket *)packet; const std::string &cname = mRtpSource.getCname(); int byteLen = sizeof(rtcpPacket->header)+sizeof(rtcpPacket->body.sdes)+sizeof(rtcpPacket->body.sdes.item[0])+cname.size(); int wordLen = ((byteLen-1)/sizeof(U32))+1; rtcpPacket->header.version = RTP_VERSION; rtcpPacket->header.p = 0; rtcpPacket->header.pt = RTCP_SDES; rtcpPacket->header.count = 1; rtcpPacket->header.lenN = htons(wordLen-1); rtcpPacket->body.sdes.srcN = htonl(mRtpSource.getSsrc()); rtcpPacket->body.sdes.item[0].type = RTCP_SDES_CNAME; rtcpPacket->body.sdes.item[0].len = cname.size(); memcpy( rtcpPacket->body.sdes.item[0].data, cname.data(), cname.size() ); return( wordLen*sizeof(U32) ); } int RtpCtrlThread::generateBye( const unsigned char *packet, ssize_t packetLen ) { RtcpPacket *rtcpPacket = (RtcpPacket *)packet; int byteLen = sizeof(rtcpPacket->header)+sizeof(rtcpPacket->body.bye)+sizeof(rtcpPacket->body.bye.srcN[0]); int wordLen = ((byteLen-1)/sizeof(U32))+1; rtcpPacket->header.version = RTP_VERSION; rtcpPacket->header.p = 0; rtcpPacket->header.pt = RTCP_BYE; rtcpPacket->header.count = 1; rtcpPacket->header.lenN = htons(wordLen-1); rtcpPacket->body.bye.srcN[0] = htonl(mRtpSource.getSsrc()); return( wordLen*sizeof(U32) ); } int RtpCtrlThread::recvPackets( unsigned char *buffer, ssize_t nBytes ) { unsigned char *bufferPtr = buffer; // u_int32 len; /* length of compound RTCP packet in words */ // rtcp_t *r; /* RTCP header */ // rtcp_t *end; /* end of compound RTCP packet */ // if ((*(u_int16 *)r & RTCP_VALID_MASK) != RTCP_VALID_VALUE) { // /* something wrong with packet format */ // } // end = (rtcp_t *)((u_int32 *)r + len); // do r = (rtcp_t *)((u_int32 *)r + r->common.length + 1); // while (r < end && r->common.version == 2); // if (r != end) { // /* something wrong with packet format */ // } while ( nBytes > 0 ) { int consumed = recvPacket( bufferPtr, nBytes ); if ( consumed <= 0 ) break; bufferPtr += consumed; nBytes -= consumed; } return( nBytes ); } int RtpCtrlThread::run() { Debug( 2, "Starting control thread %lx on port %d", mRtpSource.getSsrc(), mRtpSource.getLocalCtrlPort() ); SockAddrInet localAddr, remoteAddr; bool sendReports; UdpInetSocket rtpCtrlServer; if ( mRtpSource.getLocalHost() != "" ) { localAddr.resolve( mRtpSource.getLocalHost().c_str(), mRtpSource.getLocalCtrlPort(), "udp" ); if ( !rtpCtrlServer.bind( localAddr ) ) Fatal( "Failed to bind RTCP server" ); sendReports = false; Debug( 3, "Bound to %s:%d", mRtpSource.getLocalHost().c_str(), mRtpSource.getLocalCtrlPort() ); } else { localAddr.resolve( mRtpSource.getLocalCtrlPort(), "udp" ); if ( !rtpCtrlServer.bind( localAddr ) ) Fatal( "Failed to bind RTCP server" ); Debug( 3, "Bound to %s:%d", mRtpSource.getLocalHost().c_str(), mRtpSource.getLocalCtrlPort() ); remoteAddr.resolve( mRtpSource.getRemoteHost().c_str(), mRtpSource.getRemoteCtrlPort(), "udp" ); if ( !rtpCtrlServer.connect( remoteAddr ) ) Fatal( "Failed to connect RTCP server" ); Debug( 3, "Connected to %s:%d", mRtpSource.getRemoteHost().c_str(), mRtpSource.getRemoteCtrlPort() ); sendReports = true; } Select select( 10 ); select.addReader( &rtpCtrlServer ); unsigned char buffer[BUFSIZ]; while ( !mStop && select.wait() >= 0 ) { if ( mStop ) break; Select::CommsList readable = select.getReadable(); if ( readable.size() == 0 ) { Error( "RTCP timed out" ); break; } for ( Select::CommsList::iterator iter = readable.begin(); iter != readable.end(); iter++ ) { if ( UdpInetSocket *socket = dynamic_cast(*iter) ) { ssize_t nBytes = socket->recv( buffer, sizeof(buffer) ); Debug( 4, "Read %d bytes on sd %d", nBytes, socket->getReadDesc() ); if ( nBytes ) { recvPackets( buffer, nBytes ); if ( sendReports ) { unsigned char *bufferPtr = buffer; bufferPtr += generateRr( bufferPtr, sizeof(buffer)-(bufferPtr-buffer) ); bufferPtr += generateSdes( bufferPtr, sizeof(buffer)-(bufferPtr-buffer) ); Debug( 4, "Sending %d bytes on sd %d", bufferPtr-buffer, rtpCtrlServer.getWriteDesc() ); if ( (nBytes = rtpCtrlServer.send( buffer, bufferPtr-buffer )) < 0 ) Error( "Unable to send: %s", strerror( errno ) ); //Debug( 4, "Sent %d bytes on sd %d", nBytes, rtpCtrlServer.getWriteDesc() ); } } else { mStop = true; break; } } else { Fatal( "Barfed" ); } } } rtpCtrlServer.close(); mRtspThread.stop(); return( 0 ); } #endif // HAVE_LIBAVFORMAT