/// Attempts to parse a packet from the given Socket::Buffer.
/// Returns true if successful, removing the parsed part from the buffer.
/// Returns false if invalid or not enough data is in the buffer.
/// \arg buffer The Socket::Buffer to attempt to parse.
bool DTSC::Stream::parsePacket(Socket::Buffer & buffer) {
uint32_t len;
static bool syncing = false;
if (buffer.available(8)) {
std::string header_bytes = buffer.copy(8);
if (memcmp(header_bytes.c_str(), DTSC::Magic_Header, 4) == 0) {
len = ntohl(((uint32_t *)header_bytes.c_str())[1]);
if (!buffer.available(len + 8)) {
return false;
}
unsigned int i = 0;
std::string wholepacket = buffer.remove(len + 8);
JSON::Value meta;
JSON::fromDTMI((unsigned char *)wholepacket.c_str() + 8, len, i, meta);
addMeta(meta);
//recursively calls itself until failure or data packet instead of header
return parsePacket(buffer);
}
int version = 0;
if (memcmp(header_bytes.c_str(), DTSC::Magic_Packet, 4) == 0) {
version = 1;
}
if (memcmp(header_bytes.c_str(), DTSC::Magic_Packet2, 4) == 0) {
version = 2;
}
if (version) {
len = ntohl(((uint32_t *)header_bytes.c_str())[1]);
if (!buffer.available(len + 8)) {
return false;
}
JSON::Value newPack;
unsigned int i = 0;
std::string wholepacket = buffer.remove(len + 8);
if (version == 1) {
JSON::fromDTMI((unsigned char *)wholepacket.c_str() + 8, len, i, newPack);
}
if (version == 2) {
JSON::fromDTMI2((unsigned char *)wholepacket.c_str() + 8, len, i, newPack);
}
addPacket(newPack);
syncing = false;
return true;
}
#if DEBUG >= DLVL_WARN
if (!syncing) {
DEBUG_MSG(DLVL_WARN, "Invalid DTMI data detected - syncing");
syncing = true;
}
#endif
buffer.get().clear();
}
return false;
}
///\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 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;
}
void OutTS::sendNext(){
Socket::Buffer ToPack;
char * ContCounter = 0;
bool IsKeyFrame = false;
char * dataPointer = 0;
int dataLen = 0;
currentPacket.getString("data", dataPointer, dataLen);
//detect packet type, and put converted data into ToPack.
if (myMeta.tracks[currentPacket.getTrackId()].type == "video"){
ToPack.append(TS::Packet::getPESVideoLeadIn(0ul, currentPacket.getTime() * 90));
IsKeyFrame = currentPacket.getInt("keyframe");
if (IsKeyFrame){
if (!haveAvcc){
avccbox.setPayload(myMeta.tracks[currentPacket.getTrackId()].init);
haveAvcc = true;
}
ToPack.append(avccbox.asAnnexB());
}
unsigned int i = 0;
while (i + 4 < (unsigned int)dataLen){
unsigned int ThisNaluSize = (dataPointer[i] << 24) + (dataPointer[i+1] << 16) + (dataPointer[i+2] << 8) + dataPointer[i+3];
if (ThisNaluSize + i + 4 > (unsigned int)dataLen){
DEBUG_MSG(DLVL_WARN, "Too big NALU detected (%u > %d) - skipping!", ThisNaluSize + i + 4, dataLen);
break;
}
ToPack.append("\000\000\000\001", 4);
i += 4;
ToPack.append(dataPointer + i, ThisNaluSize);
i += ThisNaluSize;
}
ContCounter = &VideoCounter;
}else if (myMeta.tracks[currentPacket.getTrackId()].type == "audio"){
ToPack.append(TS::Packet::getPESAudioLeadIn(7+dataLen, currentPacket.getTime() * 90));
ToPack.append(TS::GetAudioHeader(dataLen, myMeta.tracks[currentPacket.getTrackId()].init));
ToPack.append(dataPointer, dataLen);
ContCounter = &AudioCounter;
}
bool first = true;
//send TS packets
while (ToPack.size()){
PackData.Clear();
/// \todo Update according to sendHeader()'s generated data.
//0x100 - 1 + currentPacket.getTrackId()
if (myMeta.tracks[currentPacket.getTrackId()].type == "video"){
PackData.PID(0x100);
}else{
PackData.PID(0x101);
}
PackData.ContinuityCounter((*ContCounter)++);
if (first){
PackData.UnitStart(1);
if (IsKeyFrame){
PackData.RandomAccess(1);
PackData.PCR(currentPacket.getTime() * 27000);
}
first = false;
}
unsigned int toSend = PackData.AddStuffing(ToPack.bytes(184));
std::string gonnaSend = ToPack.remove(toSend);
PackData.FillFree(gonnaSend);
myConn.SendNow(PackData.ToString(), 188);
}
}
///\brief Gets and parses one RTMP chunk at a time.
///\param inputBuffer A buffer filled with chunk data.
void parseChunk(Socket::Buffer & inputBuffer){
//for DTSC conversion
static JSON::Value meta_out;
static std::stringstream prebuffer; // Temporary buffer before sending real data
static bool sending = false;
static unsigned int counter = 0;
//for chunk parsing
static RTMPStream::Chunk next;
static FLV::Tag F;
static AMF::Object amfdata("empty", AMF::AMF0_DDV_CONTAINER);
static AMF::Object amfelem("empty", AMF::AMF0_DDV_CONTAINER);
static AMF::Object3 amf3data("empty", AMF::AMF3_DDV_CONTAINER);
static AMF::Object3 amf3elem("empty", AMF::AMF3_DDV_CONTAINER);
while (next.Parse(inputBuffer)){
//send ACK if we received a whole window
if ((RTMPStream::rec_cnt - RTMPStream::rec_window_at > RTMPStream::rec_window_size)){
RTMPStream::rec_window_at = RTMPStream::rec_cnt;
Socket.Send(RTMPStream::SendCTL(3, RTMPStream::rec_cnt)); //send ack (msg 3)
}
switch (next.msg_type_id){
case 0: //does not exist
#if DEBUG >= 2
fprintf(stderr, "UNKN: Received a zero-type message. Possible data corruption? Aborting!\n");
#endif
while (inputBuffer.size()){
inputBuffer.get().clear();
}
ss.close();
Socket.close();
break; //happens when connection breaks unexpectedly
case 1: //set chunk size
RTMPStream::chunk_rec_max = ntohl(*(int*)next.data.c_str());
#if DEBUG >= 5
fprintf(stderr, "CTRL: Set chunk size: %i\n", RTMPStream::chunk_rec_max);
#endif
break;
case 2: //abort message - we ignore this one
#if DEBUG >= 5
fprintf(stderr, "CTRL: Abort message\n");
#endif
//4 bytes of stream id to drop
break;
case 3: //ack
#if DEBUG >= 8
fprintf(stderr, "CTRL: Acknowledgement\n");
#endif
RTMPStream::snd_window_at = ntohl(*(int*)next.data.c_str());
RTMPStream::snd_window_at = RTMPStream::snd_cnt;
break;
case 4: {
//2 bytes event type, rest = event data
//types:
//0 = stream begin, 4 bytes ID
//1 = stream EOF, 4 bytes ID
//2 = stream dry, 4 bytes ID
//3 = setbufferlen, 4 bytes ID, 4 bytes length
//4 = streamisrecorded, 4 bytes ID
//6 = pingrequest, 4 bytes data
//7 = pingresponse, 4 bytes data
//we don't need to process this
#if DEBUG >= 5
short int ucmtype = ntohs(*(short int*)next.data.c_str());
switch (ucmtype){
case 0:
fprintf(stderr, "CTRL: UCM StreamBegin %i\n", ntohl(*((int*)(next.data.c_str()+2))));
break;
case 1:
fprintf(stderr, "CTRL: UCM StreamEOF %i\n", ntohl(*((int*)(next.data.c_str()+2))));
break;
case 2:
fprintf(stderr, "CTRL: UCM StreamDry %i\n", ntohl(*((int*)(next.data.c_str()+2))));
break;
case 3:
fprintf(stderr, "CTRL: UCM SetBufferLength %i %i\n", ntohl(*((int*)(next.data.c_str()+2))), ntohl(*((int*)(next.data.c_str()+6))));
break;
case 4:
fprintf(stderr, "CTRL: UCM StreamIsRecorded %i\n", ntohl(*((int*)(next.data.c_str()+2))));
break;
case 6:
fprintf(stderr, "CTRL: UCM PingRequest %i\n", ntohl(*((int*)(next.data.c_str()+2))));
break;
case 7:
fprintf(stderr, "CTRL: UCM PingResponse %i\n", ntohl(*((int*)(next.data.c_str()+2))));
break;
default:
fprintf(stderr, "CTRL: UCM Unknown (%hi)\n", ucmtype);
break;
}
#endif
}
break;
case 5: //window size of other end
#if DEBUG >= 5
fprintf(stderr, "CTRL: Window size\n");
#endif
RTMPStream::rec_window_size = ntohl(*(int*)next.data.c_str());
RTMPStream::rec_window_at = RTMPStream::rec_cnt;
Socket.Send(RTMPStream::SendCTL(3, RTMPStream::rec_cnt)); //send ack (msg 3)
break;
case 6:
#if DEBUG >= 5
fprintf(stderr, "CTRL: Set peer bandwidth\n");
#endif
//4 bytes window size, 1 byte limit type (ignored)
RTMPStream::snd_window_size = ntohl(*(int*)next.data.c_str());
Socket.Send(RTMPStream::SendCTL(5, RTMPStream::snd_window_size)); //send window acknowledgement size (msg 5)
break;
case 8: //audio data
case 9: //video data
case 18: //meta data
if (ss.connected()){
if (streamReset){
//reset push data to empty, in case stream properties change
meta_out.null();
prebuffer.str("");
sending = false;
counter = 0;
streamReset = false;
}
F.ChunkLoader(next);
JSON::Value pack_out = F.toJSON(meta_out);
if ( !pack_out.isNull()){
if ( !sending){
counter++;
if (counter > 8){
sending = true;
ss.SendNow(meta_out.toNetPacked());
ss.SendNow(prebuffer.str().c_str(), prebuffer.str().size()); //write buffer
prebuffer.str(""); //clear buffer
ss.SendNow(pack_out.toNetPacked());
}else{
prebuffer << pack_out.toNetPacked();
}
}else{
ss.SendNow(pack_out.toNetPacked());
}
}
}else{
#if DEBUG >= 5
fprintf(stderr, "Received useless media data\n");
#endif
Socket.close();
}
break;
case 15:
#if DEBUG >= 5
fprintf(stderr, "Received AFM3 data message\n");
#endif
break;
case 16:
#if DEBUG >= 5
fprintf(stderr, "Received AFM3 shared object\n");
#endif
break;
case 17: {
#if DEBUG >= 5
fprintf(stderr, "Received AFM3 command message\n");
#endif
if (next.data[0] != 0){
next.data = next.data.substr(1);
amf3data = AMF::parse3(next.data);
#if DEBUG >= 5
amf3data.Print();
#endif
}else{
#if DEBUG >= 5
fprintf(stderr, "Received AFM3-0 command message\n");
#endif
next.data = next.data.substr(1);
amfdata = AMF::parse(next.data);
parseAMFCommand(amfdata, 17, next.msg_stream_id);
} //parsing AMF0-style
}
break;
case 19:
#if DEBUG >= 5
fprintf(stderr, "Received AFM0 shared object\n");
#endif
break;
case 20: { //AMF0 command message
amfdata = AMF::parse(next.data);
parseAMFCommand(amfdata, 20, next.msg_stream_id);
}
break;
case 22:
#if DEBUG >= 5
fprintf(stderr, "Received aggregate message\n");
#endif
break;
default:
#if DEBUG >= 1
fprintf(stderr, "Unknown chunk received! Probably protocol corruption, stopping parsing of incoming data.\n");
#endif
stopParsing = true;
break;
}
}
} //parseChunk