#include #include #include #include #include #include #include #include #include #include #include #include namespace Converters{ enum codecType {THEORA, VORBIS}; class oggTrack{ public: oggTrack() : lastTime(), parsedHeaders(false) { } codecType codec; std::string name; long long unsigned int dtscID; long long unsigned int lastTime; bool parsedHeaders; //Codec specific elements theora::header idHeader;//needed to determine keyframe }; int OGG2DTSC(){ std::string oggBuffer; OGG::Page oggPage; //netpacked //Read all of std::cin to oggBuffer JSON::Value DTSCOut; JSON::Value DTSCHeader; DTSCHeader.null(); DTSCHeader["moreheader"] = 0ll; std::map trackData; long long int lastTrackID = 1; int headerSeen = 0; bool headerWritten = false;//important bool, used for outputting the simple DTSC header. bool allStreamsSeen = false; //other important bool used for error checking the EOS. //while stream busy while (std::cin.good()){ for (unsigned int i = 0; (i < 1024) && (std::cin.good()); i++){//buffering oggBuffer += std::cin.get(); } while (oggPage.read(oggBuffer)){//reading ogg to ogg::page //on succes, we handle one page long unsigned int sNum = oggPage.getBitstreamSerialNumber(); if (oggPage.typeBOS()){//defines a new track std::cerr << "Begin "<< sNum << std::endl; if (memcmp(oggPage.getFullPayload()+1, "theora", 6) == 0){ headerSeen += 1; headerWritten = false; trackData[sNum].codec = THEORA; std::cerr << "Snr " << sNum << "=theora" << std::endl; }else if(memcmp(oggPage.getFullPayload()+1, "vorbis", 6) == 0){ headerSeen += 1; headerWritten = false; std::cerr << "Snr " << sNum << "=vorbis" << std::endl; trackData[sNum].codec = VORBIS; }else{ std::cerr << "Unknown Codec, skipping" << std::endl; continue; } trackData[sNum].dtscID = lastTrackID++; std::stringstream tID; tID << "track" << trackData[sNum].dtscID; trackData[sNum].name = tID.str(); } //if Serial number is available in mapping if(trackData.find(sNum)!=trackData.end()){ int offset = 0; for (std::deque::iterator it = oggPage.getSegmentTableDeque().begin(); it != oggPage.getSegmentTableDeque().end(); it++){ if (trackData[sNum].parsedHeaders){ //output DTSC packet DTSCOut.null();//clearing DTSC buffer DTSCOut["trackid"] = (long long)trackData[sNum].dtscID; long long unsigned int temp = oggPage.getGranulePosition(); DTSCOut["granule"] = (long long)temp; DTSCOut["time"] = (long long)trackData[sNum].lastTime ++; DTSCOut["data"] = std::string(oggPage.getFullPayload()+offset, (*it)); //segment content put in JSON if (trackData[sNum].codec == THEORA){ if (trackData[sNum].idHeader.parseGranuleLower(temp) == 0){ //granule mask equals zero when on keyframe DTSCOut["keyframe"] = 1; }else{ DTSCOut["interframe"] = 1; } } // Ending packet if (oggPage.typeContinue()){//Continuing page DTSCOut["OggCont"] = 1; } if (oggPage.typeEOS()){//ending page DTSCOut["OggEOS"] = 1; } std::cout << DTSCOut.toNetPacked(); }else{ //switch on codec switch(trackData[sNum].codec){ case THEORA:{ theora::header tHead; if(tHead.read(oggPage.getFullPayload()+offset, (*it))){//if the current segment is a Theora header part std::cerr << "Theora Header Segment " << tHead.getHeaderType() << std::endl; //fillDTSC header switch(tHead.getHeaderType()){ case 0:{ //identification header std::cerr << "Theora ID header found" << std::endl; trackData[sNum].idHeader = tHead; DTSCHeader["tracks"][trackData[sNum].name]["height"] = (long long)tHead.getPICH(); DTSCHeader["tracks"][trackData[sNum].name]["width"] = (long long)tHead.getPICW(); DTSCHeader["tracks"][trackData[sNum].name]["IDHeader"] = std::string(oggPage.getFullPayload()+offset, (*it)); break; } case 1: //comment header std::cerr << "Theora comment header found" << std::endl; DTSCHeader["tracks"][trackData[sNum].name]["CommentHeader"] = std::string(oggPage.getFullPayload()+offset, (*it)); break; case 2:{ //setup header, also the point to start writing the header DTSCHeader["tracks"][trackData[sNum].name]["codec"] = "theora"; DTSCHeader["tracks"][trackData[sNum].name]["trackid"] = (long long)trackData[sNum].dtscID; DTSCHeader["tracks"][trackData[sNum].name]["type"] = "video"; DTSCHeader["tracks"][trackData[sNum].name]["init"] = std::string(oggPage.getFullPayload()+offset, (*it)); headerSeen --; trackData[sNum].parsedHeaders = true; break; } } } break; } case VORBIS:{ vorbis::header vHead; if(vHead.read(oggPage.getFullPayload()+offset, (*it))){//if the current segment is a Theora header part switch(vHead.getHeaderType()){ case 1:{ std::cerr << "Vorbis ID header" << std::endl; DTSCHeader["tracks"][trackData[sNum].name]["channels"] = (long long)vHead.getAudioChannels(); DTSCHeader["tracks"][trackData[sNum].name]["IDHeader"] = std::string(oggPage.getFullPayload()+offset, (*it)); break; } case 3:{ DTSCHeader["tracks"][trackData[sNum].name]["CommentHeader"] = std::string(oggPage.getFullPayload()+offset, (*it)); break; } case 5:{ std::cerr << "Vorbis init header" << std::endl; DTSCHeader["tracks"][trackData[sNum].name]["codec"] = "vorbis"; DTSCHeader["tracks"][trackData[sNum].name]["trackid"] = (long long)trackData[sNum].dtscID; DTSCHeader["tracks"][trackData[sNum].name]["type"] = "audio"; DTSCHeader["tracks"][trackData[sNum].name]["init"] = std::string(oggPage.getFullPayload()+offset, (*it)); headerSeen --; trackData[sNum].parsedHeaders = true; break; } } }else{ //buffer vorbis } break; } default: std::cerr << "Can not handle this codec" << std::endl; break; } } offset += (*it); } }else{ std::cerr <<"Error! Unknown bitstream number " << oggPage.getBitstreamSerialNumber() << std::endl; } //write header here if (headerSeen == 0 && headerWritten == false){ std::cout << DTSCHeader.toNetPacked(); headerWritten = true; } //write section buffer //write section if (oggPage.typeEOS()){//ending page std::cerr << oggPage.getBitstreamSerialNumber() << " ending" << std::endl; //remove from trackdata trackData.erase(sNum); } } } return 0; } } int main(int argc, char ** argv){ return Converters::OGG2DTSC(); }