///\brief Main function for the TS Connector
///\param conn A socket describing the connection the client.
///\param streamName The stream to connect to.
///\return The exit code of the connector.
int tsConnector(Socket::Connection conn, std::string streamName, std::string trackIDs){
std::string ToPack;
TS::Packet PackData;
std::string DTMIData;
int PacketNumber = 0;
long long unsigned int TimeStamp = 0;
int ThisNaluSize;
char VideoCounter = 0;
char AudioCounter = 0;
bool WritePesHeader;
bool IsKeyFrame;
bool FirstKeyFrame = true;
bool FirstIDRInKeyFrame;
MP4::AVCC avccbox;
bool haveAvcc = false;
DTSC::Stream Strm;
bool inited = false;
Socket::Connection ss;
while (conn.connected()){
if ( !inited){
ss = Util::Stream::getStream(streamName);
if ( !ss.connected()){
#if DEBUG >= 1
fprintf(stderr, "Could not connect to server!\n");
#endif
conn.close();
break;
}
if(trackIDs == ""){
// no track ids given? Find the first video and first audio track (if available) and use those!
int videoID = -1;
int audioID = -1;
Strm.waitForMeta(ss);
if (Strm.metadata.isMember("tracks")){
for (JSON::ObjIter trackIt = Strm.metadata["tracks"].ObjBegin(); trackIt != Strm.metadata["tracks"].ObjEnd(); trackIt++){
if (audioID == -1 && trackIt->second["type"].asString() == "audio"){
audioID = trackIt->second["trackid"].asInt();
if( trackIDs != ""){
trackIDs += " " + trackIt->second["trackid"].asString();
}else{
trackIDs = trackIt->second["trackid"].asString();
}
}
if (videoID == -1 && trackIt->second["type"].asString() == "video"){
videoID = trackIt->second["trackid"].asInt();
if( trackIDs != ""){
trackIDs += " " + trackIt->second["trackid"].asString();
}else{
trackIDs = trackIt->second["trackid"].asString();
}
}
} // for iterator
} // if isMember("tracks")
} // if trackIDs == ""
std::string cmd = "t " + trackIDs + "\ns 0\np\n";
ss.SendNow( cmd );
inited = true;
}
if (ss.spool()){
while (Strm.parsePacket(ss.Received())){
std::stringstream TSBuf;
Socket::Buffer ToPack;
//write PAT and PMT TS packets
if (PacketNumber == 0){
PackData.DefaultPAT();
TSBuf.write(PackData.ToString(), 188);
PackData.DefaultPMT();
TSBuf.write(PackData.ToString(), 188);
PacketNumber += 2;
}
int PIDno = 0;
char * ContCounter = 0;
if (Strm.lastType() == DTSC::VIDEO){
if ( !haveAvcc){
avccbox.setPayload(Strm.getTrackById(Strm.getPacket()["trackid"].asInt())["init"].asString());
haveAvcc = true;
}
IsKeyFrame = Strm.getPacket().isMember("keyframe");
if (IsKeyFrame){
TimeStamp = (Strm.getPacket()["time"].asInt() * 27000);
}
ToPack.append(avccbox.asAnnexB());
while (Strm.lastData().size() > 4){
ThisNaluSize = (Strm.lastData()[0] << 24) + (Strm.lastData()[1] << 16) + (Strm.lastData()[2] << 8) + Strm.lastData()[3];
Strm.lastData().replace(0, 4, TS::NalHeader, 4);
if (ThisNaluSize + 4 == Strm.lastData().size()){
ToPack.append(Strm.lastData());
break;
}else{
ToPack.append(Strm.lastData().c_str(), ThisNaluSize + 4);
Strm.lastData().erase(0, ThisNaluSize + 4);
}
}
ToPack.prepend(TS::Packet::getPESVideoLeadIn(0ul, Strm.getPacket()["time"].asInt() * 90));
PIDno = 0x100 - 1 + Strm.getPacket()["trackid"].asInt();
ContCounter = &VideoCounter;
}else if (Strm.lastType() == DTSC::AUDIO){
ToPack.append(TS::GetAudioHeader(Strm.lastData().size(), Strm.getTrackById(Strm.getPacket()["trackid"].asInt())["init"].asString()));
ToPack.append(Strm.lastData());
ToPack.prepend(TS::Packet::getPESAudioLeadIn(ToPack.bytes(1073741824ul), Strm.getPacket()["time"].asInt() * 90));
PIDno = 0x100 - 1 + Strm.getPacket()["trackid"].asInt();
ContCounter = &AudioCounter;
IsKeyFrame = false;
}
//initial packet
PackData.Clear();
PackData.PID(PIDno);
PackData.ContinuityCounter(( *ContCounter)++);
PackData.UnitStart(1);
if (IsKeyFrame){
PackData.RandomAccess(1);
PackData.PCR(TimeStamp);
}
unsigned int toSend = PackData.AddStuffing(ToPack.bytes(184));
std::string gonnaSend = ToPack.remove(toSend);
PackData.FillFree(gonnaSend);
TSBuf.write(PackData.ToString(), 188);
PacketNumber++;
//rest of packets
while (ToPack.size()){
PackData.Clear();
PackData.PID(PIDno);
PackData.ContinuityCounter(( *ContCounter)++);
toSend = PackData.AddStuffing(ToPack.bytes(184));
gonnaSend = ToPack.remove(toSend);
PackData.FillFree(gonnaSend);
TSBuf.write(PackData.ToString(), 188);
PacketNumber++;
}
TSBuf.flush();
if (TSBuf.str().size()){
conn.SendNow(TSBuf.str().c_str(), TSBuf.str().size());
TSBuf.str("");
}
TSBuf.str("");
PacketNumber = 0;
}
}else{
Util::sleep(1000);
conn.spool();
}
}
return 0;
}
///\brief Main function for the HTTP Dynamic Connector
///\param conn A socket describing the connection the client.
///\return The exit code of the connector.
int dynamicConnector(Socket::Connection conn){
std::deque<std::string> FlashBuf;
int FlashBufSize = 0;
long long int FlashBufTime = 0;
FLV::Tag tmp; //temporary tag
DTSC::Stream Strm; //Incoming stream buffer.
HTTP::Parser HTTP_R, HTTP_S; //HTTP Receiver en HTTP Sender.
Socket::Connection ss( -1);
std::string streamname;
std::string recBuffer = "";
std::string Quality;
int Segment = -1;
int ReqFragment = -1;
unsigned int lastStats = 0;
conn.setBlocking(false); //do not block on conn.spool() when no data is available
while (conn.connected()){
if (conn.spool() || conn.Received().size()){
//make sure it ends in a \n
if ( *(conn.Received().get().rbegin()) != '\n'){
std::string tmp = conn.Received().get();
conn.Received().get().clear();
if (conn.Received().size()){
conn.Received().get().insert(0, tmp);
}else{
conn.Received().append(tmp);
}
}
if (HTTP_R.Read(conn.Received().get())){
#if DEBUG >= 5
std::cout << "Received request: " << HTTP_R.getUrl() << std::endl;
#endif
conn.setHost(HTTP_R.GetHeader("X-Origin"));
streamname = HTTP_R.GetHeader("X-Stream");
if ( !ss){
ss = Util::Stream::getStream(streamname);
if ( !ss.connected()){
HTTP_S.Clean();
HTTP_S.SetBody("No such stream is available on the system. Please try again.\n");
conn.SendNow(HTTP_S.BuildResponse("404", "Not found"));
continue;
}
ss.setBlocking(false);
//make sure metadata is received
while ( !Strm.metadata && ss.connected()){
if (ss.spool()){
while (Strm.parsePacket(ss.Received())){
//do nothing
}
}
}
}
if (HTTP_R.url.find(".abst") != std::string::npos){
HTTP_S.Clean();
HTTP_S.SetBody(dynamicBootstrap(streamname, Strm.metadata));
HTTP_S.SetHeader("Content-Type", "binary/octet");
HTTP_S.SetHeader("Cache-Control", "no-cache");
conn.SendNow(HTTP_S.BuildResponse("200", "OK"));
HTTP_R.Clean(); //clean for any possible next requests
continue;
}
if (HTTP_R.url.find("f4m") == std::string::npos){
Quality = HTTP_R.url.substr(HTTP_R.url.find("/", 10) + 1);
Quality = Quality.substr(0, Quality.find("Seg"));
int temp;
temp = HTTP_R.url.find("Seg") + 3;
Segment = atoi(HTTP_R.url.substr(temp, HTTP_R.url.find("-", temp) - temp).c_str());
temp = HTTP_R.url.find("Frag") + 4;
ReqFragment = atoi(HTTP_R.url.substr(temp).c_str());
#if DEBUG >= 5
printf("Quality: %s, Seg %d Frag %d\n", Quality.c_str(), Segment, ReqFragment);
#endif
if (Strm.metadata.isMember("live")){
int seekable = Strm.canSeekFrame(ReqFragment);
if (seekable == 0){
// iff the fragment in question is available, check if the next is available too
seekable = Strm.canSeekFrame(ReqFragment + 1);
}
if (seekable < 0){
HTTP_S.Clean();
HTTP_S.SetBody("The requested fragment is no longer kept in memory on the server and cannot be served.\n");
conn.SendNow(HTTP_S.BuildResponse("412", "Fragment out of range"));
HTTP_R.Clean(); //clean for any possible next requests
std::cout << "Fragment @ F" << ReqFragment << " too old (F" << Strm.metadata["keynum"][0u].asInt() << " - " << Strm.metadata["keynum"][Strm.metadata["keynum"].size() - 1].asInt() << ")" << std::endl;
continue;
}
if (seekable > 0){
HTTP_S.Clean();
HTTP_S.SetBody("Proxy, re-request this in a second or two.\n");
conn.SendNow(HTTP_S.BuildResponse("208", "Ask again later"));
HTTP_R.Clean(); //clean for any possible next requests
std::cout << "Fragment @ F" << ReqFragment << " not available yet (F" << Strm.metadata["keynum"][0u].asInt() << " - " << Strm.metadata["keynum"][Strm.metadata["keynum"].size() - 1].asInt() << ")" << std::endl;
continue;
}
}
std::stringstream sstream;
sstream << "f " << ReqFragment << "\no \n";
ss.SendNow(sstream.str().c_str());
}else{
HTTP_S.Clean();
HTTP_S.SetHeader("Content-Type", "text/xml");
HTTP_S.SetHeader("Cache-Control", "no-cache");
std::string manifest = dynamicIndex(streamname, Strm.metadata);
HTTP_S.SetBody(manifest);
conn.SendNow(HTTP_S.BuildResponse("200", "OK"));
}
HTTP_R.Clean(); //clean for any possible next requests
}
}else{
Util::sleep(1);
}
if (ss.connected()){
unsigned int now = Util::epoch();
if (now != lastStats){
lastStats = now;
ss.SendNow(conn.getStats("HTTP_Dynamic").c_str());
}
if (ss.spool()){
while (Strm.parsePacket(ss.Received())){
if (Strm.lastType() == DTSC::PAUSEMARK){
if (FlashBufSize){
HTTP_S.Clean();
HTTP_S.SetHeader("Content-Type", "video/mp4");
HTTP_S.SetBody("");
std::string new_strap = dynamicBootstrap(streamname, Strm.metadata, ReqFragment);
HTTP_S.SetHeader("Content-Length", FlashBufSize + 8 + new_strap.size()); //32+33+btstrp.size());
conn.SendNow(HTTP_S.BuildResponse("200", "OK"));
conn.SendNow(new_strap);
unsigned long size = htonl(FlashBufSize+8);
conn.SendNow((char*) &size, 4);
conn.SendNow("mdat", 4);
while (FlashBuf.size() > 0){
conn.SendNow(FlashBuf.front());
FlashBuf.pop_front();
}
}
FlashBuf.clear();
FlashBufSize = 0;
}
if (Strm.lastType() == DTSC::VIDEO || Strm.lastType() == DTSC::AUDIO){
if (FlashBufSize == 0){
//fill buffer with init data, if needed.
if (Strm.metadata.isMember("audio") && Strm.metadata["audio"].isMember("init")){
tmp.DTSCAudioInit(Strm);
tmp.tagTime(Strm.getPacket(0)["time"].asInt());
FlashBuf.push_back(std::string(tmp.data, tmp.len));
FlashBufSize += tmp.len;
}
if (Strm.metadata.isMember("video") && Strm.metadata["video"].isMember("init")){
tmp.DTSCVideoInit(Strm);
tmp.tagTime(Strm.getPacket(0)["time"].asInt());
FlashBuf.push_back(std::string(tmp.data, tmp.len));
FlashBufSize += tmp.len;
}
FlashBufTime = Strm.getPacket(0)["time"].asInt();
}
tmp.DTSCLoader(Strm);
FlashBuf.push_back(std::string(tmp.data, tmp.len));
FlashBufSize += tmp.len;
}
}
}
if ( !ss.connected()){
break;
}
}
}
conn.close();
ss.SendNow(conn.getStats("HTTP_Dynamic").c_str());
ss.close();
return 0;
} //Connector_HTTP_Dynamic main function
/// Main function for Connector_HTTP_Dynamic
int Connector_HTTP_Dynamic(Socket::Connection conn){
std::deque<std::string> FlashBuf;
std::vector<int> Timestamps;
int FlashBufSize = 0;
long long int FlashBufTime = 0;
DTSC::Stream Strm; //Incoming stream buffer.
HTTP::Parser HTTP_R, HTTP_S; //HTTP Receiver en HTTP Sender.
bool ready4data = false; //Set to true when streaming is to begin.
bool pending_manifest = false;
bool receive_marks = false; //when set to true, this stream will ignore keyframes and instead use pause marks
bool inited = false;
Socket::Connection ss( -1);
std::string streamname;
std::string recBuffer = "";
bool wantsVideo = false;
bool wantsAudio = false;
std::string Quality;
int Segment = -1;
long long int ReqFragment = -1;
int temp;
std::string tempStr;
int Flash_RequestPending = 0;
unsigned int lastStats = 0;
conn.setBlocking(false); //do not block on conn.spool() when no data is available
while (conn.connected()){
if (conn.spool() || conn.Received().size()){
//make sure it ends in a \n
if ( *(conn.Received().get().rbegin()) != '\n'){
std::string tmp = conn.Received().get();
conn.Received().get().clear();
if (conn.Received().size()){
conn.Received().get().insert(0, tmp);
}else{
conn.Received().append(tmp);
}
}
if (HTTP_R.Read(conn.Received().get())){
#if DEBUG >= 4
std::cout << "Received request: " << HTTP_R.getUrl() << std::endl;
#endif
conn.setHost(HTTP_R.GetHeader("X-Origin"));
if (HTTP_R.url.find("Manifest") == std::string::npos){
streamname = HTTP_R.url.substr(8, HTTP_R.url.find("/", 8) - 12);
if ( !ss){
ss = Util::Stream::getStream(streamname);
if ( !ss.connected()){
#if DEBUG >= 1
fprintf(stderr, "Could not connect to server!\n");
#endif
ss.close();
HTTP_S.Clean();
HTTP_S.SetBody("No such stream " + streamname + " is available on the system. Please try again.\n");
conn.SendNow(HTTP_S.BuildResponse("404", "Not found"));
ready4data = false;
continue;
}
ss.setBlocking(false);
inited = true;
}
Quality = HTTP_R.url.substr(HTTP_R.url.find("/Q(", 8) + 3);
Quality = Quality.substr(0, Quality.find(")"));
tempStr = HTTP_R.url.substr(HTTP_R.url.find(")/") + 2);
wantsAudio = false;
wantsVideo = false;
if (tempStr[0] == 'A'){
wantsAudio = true;
}
if (tempStr[0] == 'V'){
wantsVideo = true;
}
tempStr = tempStr.substr(tempStr.find("(") + 1);
ReqFragment = atoll(tempStr.substr(0, tempStr.find(")")).c_str());
#if DEBUG >= 4
printf("Quality: %s, Frag %d\n", Quality.c_str(), (ReqFragment / 10000));
#endif
std::stringstream sstream;
sstream << "s " << (ReqFragment / 10000) << "\no \n";
ss.SendNow(sstream.str().c_str());
Flash_RequestPending++;
}else{
streamname = HTTP_R.url.substr(8, HTTP_R.url.find("/", 8) - 12);
if ( !Strm.metadata.isNull()){
HTTP_S.Clean();
HTTP_S.SetHeader("Content-Type", "text/xml");
HTTP_S.SetHeader("Cache-Control", "no-cache");
if (Strm.metadata.isMember("length")){
receive_marks = true;
}
std::string manifest = BuildManifest(streamname, Strm.metadata);
HTTP_S.SetBody(manifest);
conn.SendNow(HTTP_S.BuildResponse("200", "OK"));
#if DEBUG >= 3
printf("Sent manifest\n");
#endif
pending_manifest = false;
}else{
pending_manifest = true;
}
}
ready4data = true;
HTTP_R.Clean(); //clean for any possible next requests
}
}else{
if (Flash_RequestPending){
usleep(1000); //sleep 1ms
}else{
usleep(10000); //sleep 10ms
}
}
if (ready4data){
if ( !inited){
//we are ready, connect the socket!
ss = Util::Stream::getStream(streamname);
if ( !ss.connected()){
#if DEBUG >= 1
fprintf(stderr, "Could not connect to server!\n");
#endif
ss.close();
HTTP_S.Clean();
HTTP_S.SetBody("No such stream " + streamname + " is available on the system. Please try again.\n");
conn.SendNow(HTTP_S.BuildResponse("404", "Not found"));
ready4data = false;
continue;
}
ss.setBlocking(false);
#if DEBUG >= 3
fprintf(stderr, "Everything connected, starting to send video data...\n");
#endif
inited = true;
}
unsigned int now = Util::epoch();
if (now != lastStats){
lastStats = now;
ss.SendNow(conn.getStats("HTTP_Smooth").c_str());
}
if (ss.spool()){
while (Strm.parsePacket(ss.Received())){
if (Strm.getPacket(0).isMember("time")){
if ( !Strm.metadata.isMember("firsttime")){
Strm.metadata["firsttime"] = Strm.getPacket(0)["time"];
}else{
if ( !Strm.metadata.isMember("length") || Strm.metadata["length"].asInt() == 0){
Strm.getPacket(0)["time"] = Strm.getPacket(0)["time"].asInt() - Strm.metadata["firsttime"].asInt();
}
}
Strm.metadata["lasttime"] = Strm.getPacket(0)["time"];
}
if (pending_manifest){
HTTP_S.Clean();
HTTP_S.SetHeader("Content-Type", "text/xml");
HTTP_S.SetHeader("Cache-Control", "no-cache");
if (Strm.metadata.isMember("length")){
receive_marks = true;
}
std::string manifest = BuildManifest(streamname, Strm.metadata);
HTTP_S.SetBody(manifest);
conn.SendNow(HTTP_S.BuildResponse("200", "OK"));
#if DEBUG >= 3
printf("Sent manifest\n");
#endif
pending_manifest = false;
}
if ( !receive_marks && Strm.metadata.isMember("length")){
receive_marks = true;
}
if (Strm.lastType() == DTSC::PAUSEMARK){
Timestamps.push_back(Strm.getPacket(0)["time"].asInt());
}
if ((Strm.getPacket(0).isMember("keyframe") && !receive_marks) || Strm.lastType() == DTSC::PAUSEMARK){
#if DEBUG >= 4
fprintf(stderr, "Received a %s fragment of %i bytes.\n", Strm.getPacket(0)["datatype"].asString().c_str(), FlashBufSize);
#endif
if (Flash_RequestPending > 0 && FlashBufSize){
#if DEBUG >= 3
fprintf(stderr, "Sending a fragment...");
#endif
//static std::string btstrp;
//btstrp = GenerateBootstrap(streamname, Strm.metadata, ReqFragment, FlashBufTime, Strm.getPacket(0)["time"]);
HTTP_S.Clean();
HTTP_S.SetHeader("Content-Type", "video/mp4");
HTTP_S.SetBody("");
int myDuration;
MP4::MFHD mfhd_box;
for (int i = 0; i < Strm.metadata["keytime"].size(); i++){
if (Strm.metadata["keytime"][i].asInt() >= (ReqFragment / 10000)){
mfhd_box.setSequenceNumber(i + 1);
if (i != Strm.metadata["keytime"].size()){
myDuration = Strm.metadata["keytime"][i + 1].asInt() - Strm.metadata["keytime"][i].asInt();
}else{
myDuration = Strm.metadata["lastms"].asInt() - Strm.metadata["keytime"][i].asInt();
}
myDuration = myDuration * 10000;
break;
}
}
MP4::TFHD tfhd_box;
tfhd_box.setFlags(MP4::tfhdSampleFlag);
tfhd_box.setTrackID(1);
tfhd_box.setDefaultSampleFlags(0x000000C0 | MP4::noIPicture | MP4::noDisposable | MP4::noKeySample);
MP4::TRUN trun_box;
//maybe reinsert dataOffset
trun_box.setFlags(MP4::trundataOffset | MP4::trunfirstSampleFlags | MP4::trunsampleDuration | MP4::trunsampleSize);
trun_box.setDataOffset(42);
trun_box.setFirstSampleFlags(0x00000040 | MP4::isIPicture | MP4::noDisposable | MP4::isKeySample);
for (int i = 0; i < FlashBuf.size(); i++){
MP4::trunSampleInformation trunSample;
trunSample.sampleSize = FlashBuf[i].size();
//trunSample.sampleDuration = (Timestamps[i+1]-Timestamps[i]) * 10000;
trunSample.sampleDuration = (((double)myDuration / FlashBuf.size()) * i) - (((double)myDuration / FlashBuf.size()) * (i - 1));
trun_box.setSampleInformation(trunSample, i);
}
MP4::SDTP sdtp_box;
sdtp_box.setVersion(0);
sdtp_box.setValue(0x24, 4);
for (int i = 1; i < FlashBuf.size(); i++){
sdtp_box.setValue(0x14, 4 + i);
}
MP4::TRAF traf_box;
traf_box.setContent(tfhd_box, 0);
traf_box.setContent(trun_box, 1);
traf_box.setContent(sdtp_box, 2);
MP4::MOOF moof_box;
moof_box.setContent(mfhd_box, 0);
moof_box.setContent(traf_box, 1);
//setting tha offsets!
trun_box.setDataOffset(moof_box.boxedSize() + 8);
traf_box.setContent(trun_box, 1);
moof_box.setContent(traf_box, 1);
//std::cerr << "\t[encoded] = " << ((MP4::TRUN&)(((MP4::TRAF&)(moof_box.getContent(1))).getContent(1))).getDataOffset() << std::endl;
HTTP_S.SetHeader("Content-Length", FlashBufSize + 8 + moof_box.boxedSize()); //32+33+btstrp.size());
conn.SendNow(HTTP_S.BuildResponse("200", "OK"));
conn.SendNow(moof_box.asBox(), moof_box.boxedSize());
unsigned long size = htonl(FlashBufSize+8);
conn.SendNow((char*) &size, 4);
conn.SendNow("mdat", 4);
while (FlashBuf.size() > 0){
conn.SendNow(FlashBuf.front());
FlashBuf.pop_front();
}
Flash_RequestPending--;
#if DEBUG >= 3
fprintf(stderr, "Done\n");
#endif
}
FlashBuf.clear();
FlashBufSize = 0;
}
if ((wantsAudio && Strm.lastType() == DTSC::AUDIO) || (wantsVideo && Strm.lastType() == DTSC::VIDEO)){
FlashBuf.push_back(Strm.lastData());
FlashBufSize += Strm.lastData().size();
Timestamps.push_back(Strm.getPacket(0)["time"].asInt());
}
}
if (pending_manifest && !Strm.metadata.isNull()){
HTTP_S.Clean();
HTTP_S.SetHeader("Content-Type", "text/xml");
HTTP_S.SetHeader("Cache-Control", "no-cache");
if (Strm.metadata.isMember("length")){
receive_marks = true;
}
std::string manifest = BuildManifest(streamname, Strm.metadata);
HTTP_S.SetBody(manifest);
conn.SendNow(HTTP_S.BuildResponse("200", "OK"));
#if DEBUG >= 3
printf("Sent manifest\n");
#endif
pending_manifest = false;
}
}
if ( !ss.connected()){
break;
}
}
}
conn.close();
ss.SendNow(conn.getStats("HTTP_Smooth").c_str());
ss.close();
return 0;
} //Connector_HTTP_Smooth main function
///\brief Main function for the TS Connector
///\param conn A socket describing the connection the client.
///\param streamName The stream to connect to.
///\return The exit code of the connector.
int tsConnector(Socket::Connection conn, std::string streamName){
std::string ToPack;
TS::Packet PackData;
std::string DTMIData;
int PacketNumber = 0;
long long unsigned int TimeStamp = 0;
int ThisNaluSize;
char VideoCounter = 0;
char AudioCounter = 0;
bool WritePesHeader;
bool IsKeyFrame;
bool FirstKeyFrame = true;
bool FirstIDRInKeyFrame;
MP4::AVCC avccbox;
bool haveAvcc = false;
DTSC::Stream Strm;
bool inited = false;
Socket::Connection ss;
while (conn.connected()){
if ( !inited){
ss = Util::Stream::getStream(streamName);
if ( !ss.connected()){
#if DEBUG >= 1
fprintf(stderr, "Could not connect to server!\n");
#endif
conn.close();
break;
}
ss.SendNow("p\n");
inited = true;
}
if (ss.spool()){
while (Strm.parsePacket(ss.Received())){
if ( !haveAvcc){
avccbox.setPayload(Strm.metadata["video"]["init"].asString());
haveAvcc = true;
}
std::stringstream TSBuf;
Socket::Buffer ToPack;
//write PAT and PMT TS packets
if (PacketNumber == 0){
PackData.DefaultPAT();
TSBuf.write(PackData.ToString(), 188);
PackData.DefaultPMT();
TSBuf.write(PackData.ToString(), 188);
PacketNumber += 2;
}
int PIDno = 0;
char * ContCounter = 0;
if (Strm.lastType() == DTSC::VIDEO){
IsKeyFrame = Strm.getPacket(0).isMember("keyframe");
if (IsKeyFrame){
TimeStamp = (Strm.getPacket(0)["time"].asInt() * 27000);
}
ToPack.append(avccbox.asAnnexB());
while (Strm.lastData().size()){
ThisNaluSize = (Strm.lastData()[0] << 24) + (Strm.lastData()[1] << 16) + (Strm.lastData()[2] << 8) + Strm.lastData()[3];
Strm.lastData().replace(0, 4, TS::NalHeader, 4);
if (ThisNaluSize + 4 == Strm.lastData().size()){
ToPack.append(Strm.lastData());
break;
}else{
ToPack.append(Strm.lastData().c_str(), ThisNaluSize + 4);
Strm.lastData().erase(0, ThisNaluSize + 4);
}
}
ToPack.prepend(TS::Packet::getPESVideoLeadIn(0ul, Strm.getPacket(0)["time"].asInt() * 90));
PIDno = 0x100;
ContCounter = &VideoCounter;
}else if (Strm.lastType() == DTSC::AUDIO){
ToPack.append(TS::GetAudioHeader(Strm.lastData().size(), Strm.metadata["audio"]["init"].asString()));
ToPack.append(Strm.lastData());
ToPack.prepend(TS::Packet::getPESAudioLeadIn(ToPack.bytes(1073741824ul), Strm.getPacket(0)["time"].asInt() * 90));
PIDno = 0x101;
ContCounter = &AudioCounter;
}
//initial packet
PackData.Clear();
PackData.PID(PIDno);
PackData.ContinuityCounter(( *ContCounter)++);
PackData.UnitStart(1);
if (IsKeyFrame){
PackData.RandomAccess(1);
PackData.PCR(TimeStamp);
}
unsigned int toSend = PackData.AddStuffing(ToPack.bytes(184));
std::string gonnaSend = ToPack.remove(toSend);
PackData.FillFree(gonnaSend);
TSBuf.write(PackData.ToString(), 188);
PacketNumber++;
//rest of packets
while (ToPack.size()){
PackData.Clear();
PackData.PID(PIDno);
PackData.ContinuityCounter(( *ContCounter)++);
toSend = PackData.AddStuffing(ToPack.bytes(184));
gonnaSend = ToPack.remove(toSend);
PackData.FillFree(gonnaSend);
TSBuf.write(PackData.ToString(), 188);
PacketNumber++;
}
TSBuf.flush();
if (TSBuf.str().size()){
conn.SendNow(TSBuf.str().c_str(), TSBuf.str().size());
TSBuf.str("");
}
TSBuf.str("");
PacketNumber = 0;
}
}
}
return 0;
}