#include "rtp.h"
#include "defines.h"
#include "encode.h"
#include "timing.h"
#include "bitfields.h"
#include "mpeg.h"
#include "sdp.h"
#include <arpa/inet.h>
namespace RTP{
double Packet::startRTCP = 0;
unsigned int MAX_SEND = 1500 - 28;
unsigned int Packet::getHsize() const{return 12 + 4 * getContribCount();}
unsigned int Packet::getPayloadSize() const{return datalen - getHsize();}
char *Packet::getPayload() const{return data + getHsize();}
unsigned int Packet::getVersion() const{return (data[0] >> 6) & 0x3;}
unsigned int Packet::getPadding() const{return (data[0] >> 5) & 0x1;}
unsigned int Packet::getExtension() const{return (data[0] >> 4) & 0x1;}
unsigned int Packet::getContribCount() const{return (data[0]) & 0xE;}
unsigned int Packet::getMarker() const{return (data[1] >> 7) & 0x1;}
unsigned int Packet::getPayloadType() const{return (data[1]) & 0x7F;}
unsigned int Packet::getSequence() const{return (((((unsigned int)data[2]) << 8) + data[3]));}
unsigned int Packet::getTimeStamp() const{return ntohl(*((unsigned int *)(data + 4)));}
unsigned int Packet::getSSRC() const{return ntohl(*((unsigned int *)(data + 8)));}
char *Packet::getData(){return data + 8 + 4 * getContribCount() + getExtension();}
void Packet::setTimestamp(unsigned int t){*((unsigned int *)(data + 4)) = htonl(t);}
void Packet::setSequence(unsigned int seq){*((short *)(data + 2)) = htons(seq);}
void Packet::setSSRC(unsigned long ssrc){*((int *)(data + 8)) = htonl(ssrc);}
void Packet::increaseSequence(){*((short *)(data + 2)) = htons(getSequence() + 1);}
void Packet::sendH264(void *socket, void callBack(void *, char *, unsigned int, unsigned int),
const char *payload, unsigned int payloadlen, unsigned int channel){
/// \todo This function probably belongs in DMS somewhere.
if (payloadlen + getHsize() + 2 <= maxDataLen){
data[1] |= 0x80; // setting the RTP marker bit to 1
memcpy(data + getHsize(), payload, payloadlen);
callBack(socket, data, getHsize() + payloadlen, channel);
sentPackets++;
sentBytes += payloadlen + getHsize();
increaseSequence();
}else{
data[1] &= 0x7F; // setting the RTP marker bit to 0
unsigned int sent = 0;
unsigned int sending =
maxDataLen - getHsize() - 2; // packages are of size MAX_SEND, except for the final one
char initByte = (payload[0] & 0xE0) | 0x1C;
char serByte = payload[0] & 0x1F; // ser is now 000
data[getHsize()] = initByte;
while (sent < payloadlen){
if (sent == 0){
serByte |= 0x80; // set first bit to 1
}else{
serByte &= 0x7F; // set first bit to 0
}
if (sent + sending >= payloadlen){
// last package
serByte |= 0x40;
sending = payloadlen - sent;
data[1] |= 0x80; // setting the RTP marker bit to 1
}
data[getHsize() + 1] = serByte;
memcpy(data + getHsize() + 2, payload + 1 + sent, sending);
callBack(socket, data, getHsize() + 2 + sending, channel);
sentPackets++;
sentBytes += sending + getHsize() + 2;
sent += sending;
increaseSequence();
}
}
}
void Packet::sendH265(void *socket, void callBack(void *, char *, unsigned int, unsigned int),
const char *payload, unsigned int payloadlen, unsigned int channel){
/// \todo This function probably belongs in DMS somewhere.
if (payloadlen + getHsize() + 3 <= maxDataLen){
data[1] |= 0x80; // setting the RTP marker bit to 1
memcpy(data + getHsize(), payload, payloadlen);
callBack(socket, data, getHsize() + payloadlen, channel);
sentPackets++;
sentBytes += payloadlen + getHsize();
increaseSequence();
}else{
data[1] &= 0x7F; // setting the RTP marker bit to 0
unsigned int sent = 0;
unsigned int sending =
maxDataLen - getHsize() - 3; // packages are of size MAX_SEND, except for the final one
char initByteA = (payload[0] & 0x81) | 0x62;
char initByteB = payload[1];
char serByte = (payload[0] & 0x7E) >> 1; // SE is now 00
data[getHsize()] = initByteA;
data[getHsize()+1] = initByteB;
while (sent < payloadlen){
if (sent == 0){
serByte |= 0x80; // set first bit to 1
}else{
serByte &= 0x7F; // set first bit to 0
}
if (sent + sending >= payloadlen){
// last package
serByte |= 0x40;
sending = payloadlen - sent;
data[1] |= 0x80; // setting the RTP marker bit to 1
}
data[getHsize() + 2] = serByte;
memcpy(data + getHsize() + 3, payload + 2 + sent, sending);
callBack(socket, data, getHsize() + 3 + sending, channel);
sentPackets++;
sentBytes += sending + getHsize() + 3;
sent += sending;
increaseSequence();
}
}
}
void Packet::sendMPEG2(void *socket, void callBack(void *, char *, unsigned int, unsigned int),
const char *payload, unsigned int payloadlen, unsigned int channel){
/// \todo This function probably belongs in DMS somewhere.
if (payloadlen + getHsize() + 4 <= maxDataLen){
data[1] |= 0x80; // setting the RTP marker bit to 1
Mpeg::MPEG2Info mInfo = Mpeg::parseMPEG2Headers(payload, payloadlen);
MPEGVideoHeader mHead(data+getHsize());
mHead.clear();
mHead.setTempRef(mInfo.tempSeq);
mHead.setPictureType(mInfo.frameType);
if (mInfo.isHeader){
mHead.setSequence();
}
mHead.setBegin();
mHead.setEnd();
memcpy(data + getHsize() + 4, payload, payloadlen);
callBack(socket, data, getHsize() + payloadlen + 4, channel);
sentPackets++;
sentBytes += payloadlen + getHsize() + 4;
increaseSequence();
}else{
data[1] &= 0x7F; // setting the RTP marker bit to 0
unsigned int sent = 0;
unsigned int sending =
maxDataLen - getHsize() - 4; // packages are of size MAX_SEND, except for the final one
Mpeg::MPEG2Info mInfo;
MPEGVideoHeader mHead(data+getHsize());
while (sent < payloadlen){
mHead.clear();
if (sent + sending >= payloadlen){
mHead.setEnd();
sending = payloadlen - sent;
data[1] |= 0x80; // setting the RTP marker bit to 1
}
Mpeg::parseMPEG2Headers(payload, sent+sending, mInfo);
mHead.setTempRef(mInfo.tempSeq);
mHead.setPictureType(mInfo.frameType);
if (sent == 0){
if (mInfo.isHeader){
mHead.setSequence();
}
mHead.setBegin();
}
memcpy(data + getHsize() + 4, payload + sent, sending);
callBack(socket, data, getHsize() + 4 + sending, channel);
sentPackets++;
sentBytes += sending + getHsize() + 4;
sent += sending;
increaseSequence();
}
}
}
void Packet::sendData(void *socket, void callBack(void *, char *, unsigned int, unsigned int),
const char *payload, unsigned int payloadlen, unsigned int channel,
std::string codec){
if (codec == "H264"){
unsigned long sent = 0;
while (sent < payloadlen){
unsigned long nalSize = ntohl(*((unsigned long *)(payload + sent)));
sendH264(socket, callBack, payload + sent + 4, nalSize, channel);
sent += nalSize + 4;
}
return;
}
if (codec == "HEVC"){
unsigned long sent = 0;
while (sent < payloadlen){
unsigned long nalSize = ntohl(*((unsigned long *)(payload + sent)));
sendH265(socket, callBack, payload + sent + 4, nalSize, channel);
sent += nalSize + 4;
}
return;
}
if (codec == "MPEG2"){
sendMPEG2(socket, callBack, payload, payloadlen, channel);
return;
}
/// \todo This function probably belongs in DMS somewhere.
data[1] |= 0x80; // setting the RTP marker bit to 1
long offsetLen = 0;
if (codec == "AAC"){
*((long *)(data + getHsize())) = htonl(((payloadlen << 3) & 0x0010fff8) | 0x00100000);
offsetLen = 4;
}else if (codec == "MP3" || codec == "MP2"){
//See RFC 2250, "MPEG Audio-specific header"
*((long *)(data + getHsize())) = 0; // this is MBZ and Frag_Offset, which are always 0
if (payload[0] != 0xFF){
FAIL_MSG("MP2/MP3 data does not start with header?");
}
offsetLen = 4;
}else if (codec == "AC3"){
*((short *)(data + getHsize())) = htons(0x0001); // this is 6 bits MBZ, 2 bits FT = 0 = full
// frames and 8 bits saying we send 1 frame
offsetLen = 2;
}
if (maxDataLen < getHsize() + offsetLen + payloadlen){
if (!managed){
FAIL_MSG("RTP data too big for packet, not sending!");
return;
}
uint32_t newMaxLen = getHsize() + offsetLen + payloadlen;
char *newData = new char[newMaxLen];
if (newData){
memcpy(newData, data, maxDataLen);
delete[] data;
data = newData;
maxDataLen = newMaxLen;
}
}
memcpy(data + getHsize() + offsetLen, payload, payloadlen);
callBack(socket, data, getHsize() + offsetLen + payloadlen, channel);
sentPackets++;
sentBytes += payloadlen + offsetLen + getHsize();
increaseSequence();
}
void Packet::sendRTCP_SR(long long &connectedAt, void *socket, unsigned int tid,
DTSC::Meta &metadata,
void callBack(void *, char *, unsigned int, unsigned int)){
char *rtcpData = (char*)malloc(32);
if (!rtcpData){
FAIL_MSG("Could not allocate 32 bytes. Something is seriously messed up.");
return;
}
rtcpData[0] = 0x80;//version 2, no padding, zero receiver reports
rtcpData[1] = 200;//sender report
Bit::htobs(rtcpData+2, 6);//6 4-byte words follow the header
Bit::htobl(rtcpData+4, getSSRC());//set source identifier
// timestamp in ms
double ntpTime = 2208988800UL + Util::epoch() + (Util::getMS() % 1000) / 1000.0;
if (startRTCP < 1 && startRTCP > -1){startRTCP = ntpTime;}
ntpTime -= startRTCP;
((int *)rtcpData)[2] = htonl(2208988800UL + Util::epoch()); // epoch is in seconds
((int *)rtcpData)[3] = htonl((Util::getMS() % 1000) * 4294967.295);
if (metadata.tracks[tid].codec == "H264"){
((int *)rtcpData)[4] = htonl((ntpTime - 0) * 90000); // rtpts
}else{
((int *)rtcpData)[4] = htonl((ntpTime - 0) * metadata.tracks[tid].rate); // rtpts
}
// it should be the time packet was sent maybe, after all?
//*((int *)(rtcpData+16) ) = htonl(getTimeStamp());//rtpts
((int *)rtcpData)[5] = htonl(sentPackets); // packet
((int *)rtcpData)[6] = htonl(sentBytes); // octet
callBack(socket, (char *)rtcpData, 28, 0);
free(rtcpData);
}
void Packet::sendRTCP_RR(long long &connectedAt, SDP::Track & sTrk, unsigned int tid,
DTSC::Meta &metadata,
void callBack(void *, char *, unsigned int, unsigned int)){
char *rtcpData = (char*)malloc(32);
if (!rtcpData){
FAIL_MSG("Could not allocate 32 bytes. Something is seriously messed up.");
return;
}
if (!(sTrk.lostCurrent + sTrk.packCurrent)){sTrk.packCurrent++;}
rtcpData[0] = 0x81;//version 2, no padding, one receiver report
rtcpData[1] = 201;//receiver report
Bit::htobs(rtcpData+2, 7);//7 4-byte words follow the header
Bit::htobl(rtcpData+4, sTrk.mySSRC);//set receiver identifier
Bit::htobl(rtcpData+8, sTrk.theirSSRC);//set source identifier
rtcpData[12] = (sTrk.lostCurrent * 255) / (sTrk.lostCurrent + sTrk.packCurrent); //fraction lost since prev RR
Bit::htob24(rtcpData+13, sTrk.lostTotal); //cumulative packets lost since start
Bit::htobl(rtcpData+16, sTrk.rtpSeq | (sTrk.packTotal & 0xFFFF0000ul)); //highest sequence received
Bit::htobl(rtcpData+20, 0); /// \TODO jitter (diff in timestamp vs packet arrival)
Bit::htobl(rtcpData+24, 0); /// \TODO last SR (middle 32 bits of last SR or zero)
Bit::htobl(rtcpData+28, 0); /// \TODO delay since last SR in 2b seconds + 2b fraction
callBack(&(sTrk.rtcp), (char *)rtcpData, 32, 0);
sTrk.lostCurrent = 0;
sTrk.packCurrent = 0;
free(rtcpData);
}
Packet::Packet(){
managed = false;
data = 0;
maxDataLen = 0;
sentBytes = 0;
sentPackets = 0;
}
Packet::Packet(unsigned int payloadType, unsigned int sequence, unsigned int timestamp,
unsigned int ssrc, unsigned int csrcCount){
managed = true;
data = new char[12 + 4 * csrcCount + 2 +
MAX_SEND]; // headerSize, 2 for FU-A, MAX_SEND for maximum sent size
if (data){
maxDataLen = 12 + 4 * csrcCount + 2 + MAX_SEND;
data[0] = ((2) << 6) | ((0 & 1) << 5) | ((0 & 1) << 4) |
(csrcCount & 15); // version, padding, extension, csrc count
data[1] = payloadType & 0x7F; // marker and payload type
}else{
maxDataLen = 0;
}
setSequence(sequence - 1); // we automatically increase the sequence each time when p
setTimestamp(timestamp);
setSSRC(ssrc);
sentBytes = 0;
sentPackets = 0;
}
Packet::Packet(const Packet &o){
managed = true;
maxDataLen = 0;
if (o.data && o.maxDataLen){
data = new char[o.maxDataLen]; // headerSize, 2 for FU-A, MAX_SEND for maximum sent size
if (data){
maxDataLen = o.maxDataLen;
memcpy(data, o.data, o.maxDataLen);
}
}else{
data = new char[14 + MAX_SEND]; // headerSize, 2 for FU-A, MAX_SEND for maximum sent size
if (data){
maxDataLen = 14 + MAX_SEND;
memset(data, 0, maxDataLen);
}
}
sentBytes = o.sentBytes;
sentPackets = o.sentPackets;
}
void Packet::operator=(const Packet &o){
if (data && managed){delete[] data;}
managed = true;
maxDataLen = 0;
data = 0;
if (o.data && o.maxDataLen){
data = new char[o.maxDataLen]; // headerSize, 2 for FU-A, MAX_SEND for maximum sent size
if (data){
maxDataLen = o.maxDataLen;
memcpy(data, o.data, o.maxDataLen);
}
}else{
data = new char[14 + MAX_SEND]; // headerSize, 2 for FU-A, MAX_SEND for maximum sent size
if (data){
maxDataLen = 14 + MAX_SEND;
memset(data, 0, maxDataLen);
}
}
sentBytes = o.sentBytes;
sentPackets = o.sentPackets;
}
Packet::~Packet(){
if (managed){delete[] data;}
}
Packet::Packet(const char *dat, unsigned int len){
managed = false;
datalen = len;
maxDataLen = len;
sentBytes = 0;
sentPackets = 0;
data = (char *)dat;
}
MPEGVideoHeader::MPEGVideoHeader(char *d){
data = d;
}
uint16_t MPEGVideoHeader::getTotalLen() const{
uint16_t ret = 4;
if (data[0] & 0x08){
ret += 4;
if (data[4] & 0x40){
ret += data[8];
}
}
return ret;
}
std::string MPEGVideoHeader::toString() const{
std::stringstream ret;
uint32_t firstHead = Bit::btohl(data);
ret << "TR=" << ((firstHead & 0x3FF0000) >> 16);
if (firstHead & 0x4000000){ret << " Ext";}
if (firstHead & 0x2000){ret << " SeqHead";}
if (firstHead & 0x1000){ret << " SliceBegin";}
if (firstHead & 0x800){ret << " SliceEnd";}
ret << " PicType=" << ((firstHead & 0x700) >> 8);
if (firstHead & 0x80){ret << " FBV";}
ret << " BFC=" << ((firstHead & 0x70) >> 4);
if (firstHead & 0x8){ret << " FFV";}
ret << " FFC=" << (firstHead & 0x7);
return ret.str();
}
void MPEGVideoHeader::clear(){
((uint32_t*)data)[0] = 0;
}
void MPEGVideoHeader::setTempRef(uint16_t ref){
data[0] |= (ref >> 8) & 0x03;
data[1] = ref & 0xff;
}
void MPEGVideoHeader::setPictureType(uint8_t pType){
data[2] |= pType & 0x7;
}
void MPEGVideoHeader::setSequence(){
data[2] |= 0x20;
}
void MPEGVideoHeader::setBegin(){
data[2] |= 0x10;
}
void MPEGVideoHeader::setEnd(){
data[2] |= 0x8;
}
}