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378 lines
11 KiB
C++
378 lines
11 KiB
C++
/*
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This file is a part of JRTPLIB
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Copyright (c) 1999-2017 Jori Liesenborgs
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Contact: jori.liesenborgs@gmail.com
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This library was developed at the Expertise Centre for Digital Media
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(http://www.edm.uhasselt.be), a research center of the Hasselt University
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(http://www.uhasselt.be). The library is based upon work done for
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my thesis at the School for Knowledge Technology (Belgium/The Netherlands).
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Permission is hereby granted, free of charge, to any person obtaining a
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copy of this software and associated documentation files (the "Software"),
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to deal in the Software without restriction, including without limitation
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the rights to use, copy, modify, merge, publish, distribute, sublicense,
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and/or sell copies of the Software, and to permit persons to whom the
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Software is furnished to do so, subject to the following conditions:
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The above copyright notice and this permission notice shall be included
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in all copies or substantial portions of the Software.
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THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS
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OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
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FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
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THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
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LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
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FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS
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IN THE SOFTWARE.
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*/
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#include "rtppacket.h"
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#include "rtpstructs.h"
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#include "rtpdefines.h"
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#include "rtperrors.h"
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#include "rtprawpacket.h"
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#include <string.h>
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namespace qrtplib
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{
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void RTPPacket::Clear()
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{
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hasextension = false;
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hasmarker = false;
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numcsrcs = 0;
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payloadtype = 0;
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extseqnr = 0;
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timestamp = 0;
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ssrc = 0;
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packet = 0;
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payload = 0;
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packetlength = 0;
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payloadlength = 0;
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extid = 0;
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extension = 0;
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extensionlength = 0;
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error = 0;
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externalbuffer = false;
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}
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RTPPacket::RTPPacket(RTPRawPacket &rawpack) :
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receivetime(rawpack.GetReceiveTime())
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{
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Clear();
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error = ParseRawPacket(rawpack);
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}
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RTPPacket::RTPPacket(
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uint8_t payloadtype,
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const void *payloaddata,
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std::size_t payloadlen,
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uint16_t seqnr,
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uint32_t timestamp,
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uint32_t ssrc,
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bool gotmarker,
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uint8_t numcsrcs,
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const uint32_t *csrcs,
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bool gotextension,
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uint16_t extensionid,
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uint16_t extensionlen_numwords,
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const void *extensiondata,
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std::size_t maxpacksize) :
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receivetime(0, 0)
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{
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Clear();
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error = BuildPacket(
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payloadtype,
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payloaddata,
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payloadlen,
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seqnr,
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timestamp,
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ssrc,
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gotmarker,
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numcsrcs,
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csrcs,
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gotextension,
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extensionid,
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extensionlen_numwords,
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extensiondata,
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0,
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maxpacksize);
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}
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RTPPacket::RTPPacket(
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uint8_t payloadtype,
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const void *payloaddata,
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std::size_t payloadlen,
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uint16_t seqnr,
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uint32_t timestamp,
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uint32_t ssrc,
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bool gotmarker,
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uint8_t numcsrcs,
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const uint32_t *csrcs,
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bool gotextension,
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uint16_t extensionid,
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uint16_t extensionlen_numwords,
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const void *extensiondata,
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void *buffer,
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std::size_t buffersize) :
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receivetime(0, 0)
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{
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Clear();
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if (buffer == 0)
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error = ERR_RTP_PACKET_EXTERNALBUFFERNULL;
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else if (buffersize <= 0)
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error = ERR_RTP_PACKET_ILLEGALBUFFERSIZE;
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else
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error = BuildPacket(
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payloadtype,
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payloaddata,
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payloadlen,
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seqnr,
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timestamp,
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ssrc,
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gotmarker,
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numcsrcs,
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csrcs,
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gotextension,
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extensionid,
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extensionlen_numwords,
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extensiondata,
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buffer,
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buffersize);
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}
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int RTPPacket::ParseRawPacket(RTPRawPacket &rawpack)
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{
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uint8_t *packetbytes;
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std::size_t packetlen;
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uint8_t payloadtype;
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RTPHeader *rtpheader;
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bool marker;
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int csrccount;
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bool hasextension;
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int payloadoffset, payloadlength;
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int numpadbytes;
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RTPExtensionHeader *rtpextheader;
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if (!rawpack.IsRTP()) // If we didn't receive it on the RTP port, we'll ignore it
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return ERR_RTP_PACKET_INVALIDPACKET;
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// The length should be at least the size of the RTP header
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packetlen = rawpack.GetDataLength();
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if (packetlen < sizeof(RTPHeader))
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return ERR_RTP_PACKET_INVALIDPACKET;
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packetbytes = (uint8_t *) rawpack.GetData();
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rtpheader = (RTPHeader *) packetbytes;
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// The version number should be correct
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if (rtpheader->version != RTP_VERSION)
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return ERR_RTP_PACKET_INVALIDPACKET;
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// We'll check if this is possibly a RTCP packet. For this to be possible
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// the marker bit and payload type combined should be either an SR or RR
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// identifier
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marker = (rtpheader->marker == 0) ? false : true;
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payloadtype = rtpheader->payloadtype;
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if (marker)
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{
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if (payloadtype == (RTP_RTCPTYPE_SR & 127)) // don't check high bit (this was the marker!!)
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return ERR_RTP_PACKET_INVALIDPACKET;
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if (payloadtype == (RTP_RTCPTYPE_RR & 127))
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return ERR_RTP_PACKET_INVALIDPACKET;
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}
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csrccount = rtpheader->csrccount;
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payloadoffset = sizeof(RTPHeader) + (int) (csrccount * sizeof(uint32_t));
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if (rtpheader->padding) // adjust payload length to take padding into account
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{
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numpadbytes = (int) packetbytes[packetlen - 1]; // last byte contains number of padding bytes
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if (numpadbytes <= 0)
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return ERR_RTP_PACKET_INVALIDPACKET;
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}
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else
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numpadbytes = 0;
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hasextension = (rtpheader->extension == 0) ? false : true;
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if (hasextension) // got header extension
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{
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rtpextheader = (RTPExtensionHeader *) (packetbytes + payloadoffset);
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payloadoffset += sizeof(RTPExtensionHeader);
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uint16_t exthdrlen = m_endian.qToHost(rtpextheader->length);
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payloadoffset += ((int) exthdrlen) * sizeof(uint32_t);
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}
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else
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{
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rtpextheader = 0;
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}
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payloadlength = packetlen - numpadbytes - payloadoffset;
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if (payloadlength < 0)
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return ERR_RTP_PACKET_INVALIDPACKET;
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// Now, we've got a valid packet, so we can create a new instance of RTPPacket
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// and fill in the members
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RTPPacket::hasextension = hasextension;
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if (hasextension)
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{
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RTPPacket::extid = m_endian.qToHost(rtpextheader->extid);
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RTPPacket::extensionlength = ((int) m_endian.qToHost(rtpextheader->length)) * sizeof(uint32_t);
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RTPPacket::extension = ((uint8_t *) rtpextheader) + sizeof(RTPExtensionHeader);
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}
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RTPPacket::hasmarker = marker;
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RTPPacket::numcsrcs = csrccount;
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RTPPacket::payloadtype = payloadtype;
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// Note: we don't fill in the EXTENDED sequence number here, since we
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// don't have information about the source here. We just fill in the low
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// 16 bits
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RTPPacket::extseqnr = (uint32_t) m_endian.qToHost(rtpheader->sequencenumber);
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RTPPacket::timestamp = m_endian.qToHost(rtpheader->timestamp);
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RTPPacket::ssrc = m_endian.qToHost(rtpheader->ssrc);
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RTPPacket::packet = packetbytes;
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RTPPacket::payload = packetbytes + payloadoffset;
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RTPPacket::packetlength = packetlen;
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RTPPacket::payloadlength = payloadlength;
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return 0;
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}
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uint32_t RTPPacket::GetCSRC(int num) const
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{
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if (num >= numcsrcs)
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return 0;
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uint8_t *csrcpos;
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uint32_t *csrcval_nbo;
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uint32_t csrcval_hbo;
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csrcpos = packet + sizeof(RTPHeader) + num * sizeof(uint32_t);
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csrcval_nbo = (uint32_t *) csrcpos;
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csrcval_hbo = m_endian.qToHost(*csrcval_nbo);
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return csrcval_hbo;
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}
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int RTPPacket::BuildPacket(
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uint8_t payloadtype,
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const void *payloaddata,
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std::size_t payloadlen,
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uint16_t seqnr,
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uint32_t timestamp,
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uint32_t ssrc,
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bool gotmarker,
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uint8_t numcsrcs,
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const uint32_t *csrcs,
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bool gotextension,
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uint16_t extensionid,
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uint16_t extensionlen_numwords,
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const void *extensiondata,
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void *buffer,
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std::size_t maxsize)
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{
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if (numcsrcs > RTP_MAXCSRCS)
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return ERR_RTP_PACKET_TOOMANYCSRCS;
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if (payloadtype > 127) // high bit should not be used
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return ERR_RTP_PACKET_BADPAYLOADTYPE;
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if (payloadtype == 72 || payloadtype == 73) // could cause confusion with rtcp types
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return ERR_RTP_PACKET_BADPAYLOADTYPE;
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packetlength = sizeof(RTPHeader);
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packetlength += sizeof(uint32_t) * ((std::size_t) numcsrcs);
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if (gotextension)
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{
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packetlength += sizeof(RTPExtensionHeader);
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packetlength += sizeof(uint32_t) * ((std::size_t) extensionlen_numwords);
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}
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packetlength += payloadlen;
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if (maxsize > 0 && packetlength > maxsize)
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{
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packetlength = 0;
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return ERR_RTP_PACKET_DATAEXCEEDSMAXSIZE;
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}
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// Ok, now we'll just fill in...
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RTPHeader *rtphdr;
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if (buffer == 0)
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{
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packet = new uint8_t[packetlength];
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if (packet == 0)
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{
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packetlength = 0;
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return ERR_RTP_OUTOFMEM;
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}
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externalbuffer = false;
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}
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else
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{
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packet = (uint8_t *) buffer;
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externalbuffer = true;
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}
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RTPPacket::hasmarker = gotmarker;
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RTPPacket::hasextension = gotextension;
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RTPPacket::numcsrcs = numcsrcs;
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RTPPacket::payloadtype = payloadtype;
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RTPPacket::extseqnr = (uint32_t) seqnr;
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RTPPacket::timestamp = timestamp;
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RTPPacket::ssrc = ssrc;
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RTPPacket::payloadlength = payloadlen;
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RTPPacket::extid = extensionid;
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RTPPacket::extensionlength = ((std::size_t) extensionlen_numwords) * sizeof(uint32_t);
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rtphdr = (RTPHeader *) packet;
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rtphdr->version = RTP_VERSION;
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rtphdr->padding = 0;
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if (gotmarker)
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rtphdr->marker = 1;
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else
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rtphdr->marker = 0;
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if (gotextension)
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rtphdr->extension = 1;
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else
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rtphdr->extension = 0;
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rtphdr->csrccount = numcsrcs;
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rtphdr->payloadtype = payloadtype & 127; // make sure high bit isn't set
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rtphdr->sequencenumber = qToBigEndian(seqnr);
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rtphdr->timestamp = qToBigEndian(timestamp);
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rtphdr->ssrc = qToBigEndian(ssrc);
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uint32_t *curcsrc;
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int i;
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curcsrc = (uint32_t *) (packet + sizeof(RTPHeader));
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for (i = 0; i < numcsrcs; i++, curcsrc++)
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*curcsrc = qToBigEndian(csrcs[i]);
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payload = packet + sizeof(RTPHeader) + ((std::size_t) numcsrcs) * sizeof(uint32_t);
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if (gotextension)
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{
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RTPExtensionHeader *rtpexthdr = (RTPExtensionHeader *) payload;
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rtpexthdr->extid = qToBigEndian(extensionid);
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rtpexthdr->length = qToBigEndian((uint16_t) extensionlen_numwords);
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payload += sizeof(RTPExtensionHeader);
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memcpy(payload, extensiondata, RTPPacket::extensionlength);
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payload += RTPPacket::extensionlength;
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}
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memcpy(payload, payloaddata, payloadlen);
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return 0;
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}
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} // end namespace
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