/// \file dtsc.cpp /// Holds all code for DDVTECH Stream Container parsing/generation. #include "dtsc.h" #include #include //for memcmp #include //for htonl/ntohl char DTSC::Magic_Header[] = "DTSC"; char DTSC::Magic_Packet[] = "DTPD"; char DTSC::Magic_Packet2[] = "DTP2"; /// Initializes a DTSC::Stream with only one packet buffer. DTSC::Stream::Stream(){ datapointertype = DTSC::INVALID; buffercount = 1; buffertime = 0; } /// Initializes a DTSC::Stream with a minimum of rbuffers packet buffers. /// The actual buffer count may not at all times be the requested amount. DTSC::Stream::Stream(unsigned int rbuffers, unsigned int bufferTime){ datapointertype = DTSC::INVALID; if (rbuffers < 1){ rbuffers = 1; } buffercount = rbuffers; buffertime = bufferTime; } /// Returns the time in milliseconds of the last received packet. /// This is _not_ the time this packet was received, only the stored time. unsigned int DTSC::Stream::getTime(){ return buffers.rbegin()->second["time"].asInt(); } /// Attempts to parse a packet from the given std::string buffer. /// Returns true if successful, removing the parsed part from the buffer string. /// Returns false if invalid or not enough data is in the buffer. /// \arg buffer The std::string buffer to attempt to parse. bool DTSC::Stream::parsePacket(std::string & buffer){ uint32_t len; static bool syncing = false; if (buffer.length() > 8){ if (memcmp(buffer.c_str(), DTSC::Magic_Header, 4) == 0){ len = ntohl(((uint32_t *)buffer.c_str())[1]); if (buffer.length() < len + 8){ return false; } unsigned int i = 0; metadata = JSON::fromDTMI((unsigned char*)buffer.c_str() + 8, len, i); metadata.removeMember("moreheader"); metadata.netPrepare(); trackMapping.clear(); if (metadata.isMember("tracks")){ for (JSON::ObjIter it = metadata["tracks"].ObjBegin(); it != metadata["tracks"].ObjEnd(); it++){ trackMapping.insert(std::pair(it->second["trackid"].asInt(),it->first)); } } buffer.erase(0, len + 8); if (buffer.length() <= 8){ return false; } } int version = 0; if (memcmp(buffer.c_str(), DTSC::Magic_Packet, 4) == 0){ version = 1; } if (memcmp(buffer.c_str(), DTSC::Magic_Packet2, 4) == 0){ version = 2; } if (version){ len = ntohl(((uint32_t *)buffer.c_str())[1]); if (buffer.length() < len + 8){ return false; } JSON::Value newPack; unsigned int i = 0; if (version == 1){ newPack = JSON::fromDTMI((unsigned char*)buffer.c_str() + 8, len, i); } if (version == 2){ newPack = JSON::fromDTMI2((unsigned char*)buffer.c_str() + 8, len, i); } addPacket(newPack); syncing = false; return true; } #if DEBUG >= 2 if (!syncing){ std::cerr << "Error: Invalid DTMI data detected - re-syncing" << std::endl; syncing = true; } #endif size_t magic_search = buffer.find(Magic_Packet); size_t magic_search2 = buffer.find(Magic_Packet2); if (magic_search2 == std::string::npos){ if (magic_search == std::string::npos){ buffer.clear(); }else{ buffer.erase(0, magic_search); } }else{ buffer.erase(0, magic_search2); } } return false; } /// 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); metadata = JSON::fromDTMI((unsigned char*)wholepacket.c_str() + 8, len, i); metadata.removeMember("moreheader"); if (buffercount > 1){ metadata.netPrepare(); } if (metadata.isMember("tracks")){ trackMapping.clear(); for (JSON::ObjIter it = metadata["tracks"].ObjBegin(); it != metadata["tracks"].ObjEnd(); it++){ trackMapping.insert(std::pair(it->second["trackid"].asInt(),it->first)); } } //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){ newPack = JSON::fromDTMI((unsigned char*)wholepacket.c_str() + 8, len, i); } if (version == 2){ newPack = JSON::fromDTMI2((unsigned char*)wholepacket.c_str() + 8, len, i); } addPacket(newPack); syncing = false; return true; } #if DEBUG >= 2 if (!syncing){ std::cerr << "Error: Invalid DTMI data detected - syncing" << std::endl; syncing = true; } #endif buffer.get().clear(); } return false; } void DTSC::Stream::addPacket(JSON::Value & newPack){ livePos newPos; newPos.trackID = newPack["trackid"].asInt(); newPos.seekTime = newPack["time"].asInt(); while (buffers.count(newPos) > 0){ newPos.seekTime++; } buffers[newPos] = newPack; buffers[newPos].toNetPacked();//make sure package is packed and ready datapointertype = INVALID; ///\todo Save keyframes when they arrive. std::string tmp = ""; if (newPack.isMember("trackid")){ tmp = getTrackById(newPack["trackid"].asInt())["type"].asString(); } if (newPack.isMember("datatype")){ tmp = newPack["datatype"].asString(); } if (tmp == "video"){ datapointertype = VIDEO; } if (tmp == "audio"){ datapointertype = AUDIO; } if (tmp == "meta"){ datapointertype = META; } if (tmp == "pause_marker"){ datapointertype = PAUSEMARK; } int keySize = metadata["tracks"][trackMapping[newPos.trackID]]["keys"].size(); if (buffercount > 1){ if (newPack.isMember("keyframe") || (keySize && ((newPack["time"].asInt() - 2000) > metadata["tracks"][trackMapping[newPos.trackID]]["keys"][keySize - 1]["time"].asInt())) || (!keySize)){ keyframes[newPos.trackID].insert(newPos); JSON::Value key; key["time"] = newPack["time"]; if (keySize){ key["num"] = metadata["tracks"][trackMapping[newPos.trackID]]["keys"][keySize -1]["num"].asInt() + 1; metadata["tracks"][trackMapping[newPos.trackID]]["keys"][keySize - 1]["len"] = newPack["time"].asInt() - metadata["tracks"][trackMapping[newPos.trackID]]["keys"][keySize - 1]["time"].asInt(); int size = 0; for (JSON::ArrIter it = metadata["tracks"][trackMapping[newPos.trackID]]["keys"][keySize - 1]["parts"].ArrBegin(); it != metadata["tracks"][trackMapping[newPos.trackID]]["keys"][keySize - 1]["parts"].ArrEnd(); it++){ size += it->asInt(); } metadata["tracks"][trackMapping[newPos.trackID]]["keys"][keySize -1]["size"] = size; }else{ key["num"] = 1; } metadata["tracks"][trackMapping[newPos.trackID]]["keys"].append(key); keySize = metadata["tracks"][trackMapping[newPos.trackID]]["keys"].size(); } if (keySize){ metadata["tracks"][trackMapping[newPos.trackID]]["keys"][keySize - 1]["parts"].append((long long int)newPack["data"].asString().size()); } metadata["live"] = 1ll; } //increase buffer size if too little time available unsigned int timeBuffered = buffers.rbegin()->second["time"].asInt() - buffers.begin()->second["time"].asInt(); if (buffercount > 1 && timeBuffered < buffertime){ buffercount = buffers.size(); if (buffercount < 2){buffercount = 2;} } //std::cout << buffers.size() << " - " << buffercount << std::endl; while (buffers.size() > buffercount){ if (keyframes[buffers.begin()->first.trackID].count(buffers.begin()->first)){ //if there are < 3 keyframes, throwing one away would mean less than 2 left. if (keyframes[buffers.begin()->first.trackID].size() < 3){ std::cout << "Warning - track " << buffers.begin()->first.trackID << " doesn't have enough keyframes to be reliably served." << std::endl; } std::string track = trackMapping[buffers.begin()->first.trackID]; keyframes[buffers.begin()->first.trackID].erase(buffers.begin()->first); int keySize = metadata["tracks"][track]["keys"].size(); metadata["tracks"][track]["keys"].shrink(keySize - 1); } buffers.erase(buffers.begin()); } metadata.netPrepare(); } /// Returns a direct pointer to the data attribute of the last received packet, if available. /// Returns NULL if no valid pointer or packet is available. std::string & DTSC::Stream::lastData(){ return buffers.rbegin()->second["data"].strVal; } /// Returns the packet in this buffer number. /// \arg num Buffer number. JSON::Value & DTSC::Stream::getPacket(livePos num){ static JSON::Value empty; if (buffers.find(num) == buffers.end()){ return empty; } return buffers[num]; } JSON::Value & DTSC::Stream::getPacket(){ return buffers.begin()->second; } /// Returns a track element by giving the id. JSON::Value & DTSC::Stream::getTrackById(int trackNo){ static JSON::Value empty; if (trackMapping.find(trackNo) != trackMapping.end()){ return metadata["tracks"][trackMapping[trackNo]]; } return empty; } /// Returns the type of the last received packet. DTSC::datatype DTSC::Stream::lastType(){ return datapointertype; } /// Returns true if the current stream contains at least one video track. bool DTSC::Stream::hasVideo(){ return metadata.isMember("video"); } /// Returns true if the current stream contains at least one audio track. bool DTSC::Stream::hasAudio(){ return metadata.isMember("audio"); } void DTSC::Stream::setBufferTime(unsigned int ms){ buffertime = ms; } std::string & DTSC::Stream::outPacket(){ static std::string emptystring; if (!buffers.size() || !buffers.rbegin()->second.isObject()){ return emptystring; } return buffers.rbegin()->second.toNetPacked(); } /// Returns a packed DTSC packet, ready to sent over the network. std::string & DTSC::Stream::outPacket(livePos num){ static std::string emptystring; if (buffers.find(num) == buffers.end() || !buffers[num].isObject()) return emptystring; return buffers[num].toNetPacked(); } /// Returns a packed DTSC header, ready to sent over the network. std::string & DTSC::Stream::outHeader(){ return metadata.toNetPacked(); } /// Constructs a new Ring, at the given buffer position. /// \arg v Position for buffer. DTSC::Ring::Ring(livePos v){ b = v; waiting = false; starved = false; updated = false; playCount = 0; } /// Requests a new Ring, which will be created and added to the internal Ring list. /// This Ring will be kept updated so it always points to valid data or has the starved boolean set. /// Don't forget to call dropRing() for all requested Ring classes that are no longer neccessary! DTSC::Ring * DTSC::Stream::getRing(){ livePos tmp = buffers.begin()->first; std::map >::iterator it; for (it = keyframes.begin(); it != keyframes.end(); it++){ if ((*it->second.begin()).seekTime > tmp.seekTime){ tmp = *it->second.begin(); } } return new DTSC::Ring(tmp); } /// Deletes a given out Ring class from memory and internal Ring list. /// Checks for NULL pointers and invalid pointers, silently discarding them. void DTSC::Stream::dropRing(DTSC::Ring * ptr){ } /// Returns 0 if seeking is possible, -1 if the wanted frame is too old, 1 if the wanted frame is too new. int DTSC::Stream::canSeekms(unsigned int ms){ if ( !buffers.size()){ return 1; } if (ms > buffers.rbegin()->second["time"].asInt()){ return 1; } if (ms < buffers.begin()->second["time"].asInt()){ return -1; } return 0; } DTSC::livePos DTSC::Stream::msSeek(unsigned int ms, std::set & allowedTracks){ std::set seekTracks = allowedTracks; livePos result = buffers.begin()->first; for (std::set::iterator it = allowedTracks.begin(); it != allowedTracks.end(); it++){ if (getTrackById(*it).isMember("type") && getTrackById(*it)["type"].asString() == "video"){ int trackNo = *it; seekTracks.clear(); seekTracks.insert(trackNo); break; } } for (std::map::iterator bIt = buffers.begin(); bIt != buffers.end(); bIt++){ if (seekTracks.find(bIt->first.trackID) != seekTracks.end()){ if (bIt->second.isMember("keyframe")){ result = bIt->first; if (bIt->first.seekTime >= ms){ return result; } } } } return result; } bool DTSC::Stream::isNewest(DTSC::livePos & pos){ return (buffers.upper_bound(pos) == buffers.end()); } DTSC::livePos DTSC::Stream::getNext(DTSC::livePos & pos, std::set & allowedTracks){ if (!isNewest(pos)){ return (buffers.upper_bound(pos))->first; }else{ return livePos(); } } /// Properly cleans up the object for erasing. /// Drops all Ring classes that have been given out. DTSC::Stream::~Stream(){ } DTSC::File::File(){ F = 0; } DTSC::File::File(const File & rhs){ *this = rhs; } DTSC::File & DTSC::File::operator =(const File & rhs){ created = rhs.created; if (rhs.F){ int tmpFd = fileno(rhs.F); int newFd = dup(tmpFd); F = fdopen( newFd, (created ? "w+b": "r+b")); }else{ F = 0; } strbuffer = rhs.strbuffer; jsonbuffer = rhs.jsonbuffer; metadata = rhs.metadata; firstmetadata = rhs.firstmetadata; currtime = rhs.currtime; lastreadpos = rhs.lastreadpos; headerSize = rhs.headerSize; trackMapping = rhs.trackMapping; memcpy(buffer, rhs.buffer, 4); } /// Open a filename for DTSC reading/writing. /// If create is true and file does not exist, attempt to create. DTSC::File::File(std::string filename, bool create){ if (create){ F = fopen(filename.c_str(), "w+b"); //write an empty header fseek(F, 0, SEEK_SET); fwrite(DTSC::Magic_Header, 4, 1, F); memset(buffer, 0, 4); fwrite(buffer, 4, 1, F); //write 4 zero-bytes headerSize = 0; }else{ F = fopen(filename.c_str(), "r+b"); } created = create; if ( !F){ fprintf(stderr, "Could not open file %s\n", filename.c_str()); return; } //we now know the first 4 bytes are DTSC::Magic_Header and we have a valid file fseek(F, 4, SEEK_SET); if (fread(buffer, 4, 1, F) != 1){ fseek(F, 4, SEEK_SET); memset(buffer, 0, 4); fwrite(buffer, 4, 1, F); //write 4 zero-bytes }else{ uint32_t * ubuffer = (uint32_t *)buffer; headerSize = ntohl(ubuffer[0]); } readHeader(0); trackMapping.clear(); if (metadata.isMember("tracks")){ for (JSON::ObjIter it = metadata["tracks"].ObjBegin(); it != metadata["tracks"].ObjEnd(); it++){ trackMapping.insert(std::pair(it->second["trackid"].asInt(),it->first)); } } fseek(F, 8 + headerSize, SEEK_SET); currframe = 0; } /// Returns the header metadata for this file as JSON::Value. JSON::Value & DTSC::File::getMeta(){ return metadata; } /// Returns the header metadata for this file as JSON::Value. JSON::Value & DTSC::File::getFirstMeta(){ return firstmetadata; } /// (Re)writes the given string to the header area if the size is the same as the existing header. /// Forces a write if force is set to true. bool DTSC::File::writeHeader(std::string & header, bool force){ if (headerSize != header.size() && !force){ fprintf(stderr, "Could not overwrite header - not equal size\n"); return false; } headerSize = header.size(); int pSize = htonl(header.size()); fseek(F, 4, SEEK_SET); int tmpret = fwrite((void*)( &pSize), 4, 1, F); if (tmpret != 1){ return false; } fseek(F, 8, SEEK_SET); int ret = fwrite(header.c_str(), headerSize, 1, F); fseek(F, 8 + headerSize, SEEK_SET); return (ret == 1); } /// Adds the given string as a new header to the end of the file. /// \returns The positon the header was written at, or 0 on failure. long long int DTSC::File::addHeader(std::string & header){ fseek(F, 0, SEEK_END); long long int writePos = ftell(F); int hSize = htonl(header.size()); int ret = fwrite(DTSC::Magic_Header, 4, 1, F); //write header if (ret != 1){ return 0; } ret = fwrite((void*)( &hSize), 4, 1, F); //write size if (ret != 1){ return 0; } ret = fwrite(header.c_str(), header.size(), 1, F); //write contents if (ret != 1){ return 0; } return writePos; //return position written at } /// Reads the header at the given file position. /// If the packet could not be read for any reason, the reason is printed to stderr. /// Reading the header means the file position is moved to after the header. void DTSC::File::readHeader(int pos){ fseek(F, pos, SEEK_SET); if (fread(buffer, 4, 1, F) != 1){ if (feof(F)){ #if DEBUG >= 4 fprintf(stderr, "End of file reached (H%i)\n", pos); #endif }else{ fprintf(stderr, "Could not read header (H%i)\n", pos); } strbuffer = ""; metadata.null(); return; } if (memcmp(buffer, DTSC::Magic_Header, 4) != 0){ fprintf(stderr, "Invalid header - %.4s != %.4s (H%i)\n", buffer, DTSC::Magic_Header, pos); strbuffer = ""; metadata.null(); return; } if (fread(buffer, 4, 1, F) != 1){ fprintf(stderr, "Could not read size (H%i)\n", pos); strbuffer = ""; metadata.null(); return; } uint32_t * ubuffer = (uint32_t *)buffer; long packSize = ntohl(ubuffer[0]); strbuffer.resize(packSize); if (packSize){ if (fread((void*)strbuffer.c_str(), packSize, 1, F) != 1){ fprintf(stderr, "Could not read packet (H%i)\n", pos); strbuffer = ""; metadata.null(); return; } metadata = JSON::fromDTMI(strbuffer); } if (pos == 0){ firstmetadata = metadata; } //if there is another header, read it and replace metadata with that one. if (metadata.isMember("moreheader") && metadata["moreheader"].asInt() > 0){ if (metadata["moreheader"].asInt() < getBytePosEOF()){ readHeader(metadata["moreheader"].asInt()); return; } } metadata["vod"] = true; metadata.netPrepare(); } long int DTSC::File::getBytePosEOF(){ static long int endPos = 0; if ( !endPos){ fseek(F, 0, SEEK_END); endPos = ftell(F); } return endPos; } long int DTSC::File::getBytePos(){ return ftell(F); } bool DTSC::File::reachedEOF(){ return feof(F); } /// Reads the packet available at the current file position. /// If the packet could not be read for any reason, the reason is printed to stderr. /// Reading the packet means the file position is increased to the next packet. void DTSC::File::seekNext(){ if ( !currentPositions.size()){ strbuffer = ""; jsonbuffer.null(); return; } fseek(F,currentPositions.begin()->seekPos, SEEK_SET); if ( reachedEOF()){ strbuffer = ""; jsonbuffer.null(); return; } clearerr(F); seek_time(currentPositions.begin()->seekTime + 1, currentPositions.begin()->trackID); fseek(F,currentPositions.begin()->seekPos, SEEK_SET); currentPositions.erase(currentPositions.begin()); lastreadpos = ftell(F); if (fread(buffer, 4, 1, F) != 1){ if (feof(F)){ #if DEBUG >= 4 fprintf(stderr, "End of file reached.\n"); #endif }else{ fprintf(stderr, "Could not read header\n"); } strbuffer = ""; jsonbuffer.null(); return; } if (memcmp(buffer, DTSC::Magic_Header, 4) == 0){ readHeader(lastreadpos); jsonbuffer = metadata; return; } long long unsigned int version = 0; if (memcmp(buffer, DTSC::Magic_Packet, 4) == 0){ version = 1; } if (memcmp(buffer, DTSC::Magic_Packet2, 4) == 0){ version = 2; } if (version == 0){ fprintf(stderr, "Invalid packet header @ %#x - %.4s != %.4s\n", lastreadpos, buffer, DTSC::Magic_Packet2); strbuffer = ""; jsonbuffer.null(); return; } if (fread(buffer, 4, 1, F) != 1){ fprintf(stderr, "Could not read size\n"); strbuffer = ""; jsonbuffer.null(); return; } uint32_t * ubuffer = (uint32_t *)buffer; long packSize = ntohl(ubuffer[0]); strbuffer.resize(packSize); if (fread((void*)strbuffer.c_str(), packSize, 1, F) != 1){ fprintf(stderr, "Could not read packet\n"); strbuffer = ""; jsonbuffer.null(); return; } if (version == 2){ jsonbuffer = JSON::fromDTMI2(strbuffer); }else{ jsonbuffer = JSON::fromDTMI(strbuffer); } } void DTSC::File::parseNext(){ if (fread(buffer, 4, 1, F) != 1){ if (feof(F)){ #if DEBUG >= 4 fprintf(stderr, "End of file reached.\n"); #endif }else{ fprintf(stderr, "Could not read header\n"); } strbuffer = ""; jsonbuffer.null(); return; } if (memcmp(buffer, DTSC::Magic_Header, 4) == 0){ readHeader(lastreadpos); jsonbuffer = metadata; return; } long long unsigned int version = 0; if (memcmp(buffer, DTSC::Magic_Packet, 4) == 0){ version = 1; } if (memcmp(buffer, DTSC::Magic_Packet2, 4) == 0){ version = 2; } if (version == 0){ fprintf(stderr, "Invalid packet header @ %#x - %.4s != %.4s\n", lastreadpos, buffer, DTSC::Magic_Packet2); strbuffer = ""; jsonbuffer.null(); return; } if (fread(buffer, 4, 1, F) != 1){ fprintf(stderr, "Could not read size\n"); strbuffer = ""; jsonbuffer.null(); return; } uint32_t * ubuffer = (uint32_t *)buffer; long packSize = ntohl(ubuffer[0]); strbuffer.resize(packSize); if (fread((void*)strbuffer.c_str(), packSize, 1, F) != 1){ fprintf(stderr, "Could not read packet\n"); strbuffer = ""; jsonbuffer.null(); return; } if (version == 2){ jsonbuffer = JSON::fromDTMI2(strbuffer); }else{ jsonbuffer = JSON::fromDTMI(strbuffer); } } /// Returns the byte positon of the start of the last packet that was read. long long int DTSC::File::getLastReadPos(){ return lastreadpos; } /// Returns the internal buffer of the last read packet in raw binary format. std::string & DTSC::File::getPacket(){ return strbuffer; } /// Returns the internal buffer of the last read packet in JSON format. JSON::Value & DTSC::File::getJSON(){ return jsonbuffer; } /// Returns a track element by giving the id. JSON::Value & DTSC::File::getTrackById(int trackNo){ static JSON::Value empty; if (trackMapping.find(trackNo) != trackMapping.end()){ return metadata["tracks"][trackMapping[trackNo]]; } return empty; } bool DTSC::File::seek_time(int ms, int trackNo){ seekPos tmpPos; tmpPos.trackID = trackNo; if (jsonbuffer && ms > jsonbuffer["time"].asInt() && trackNo >= jsonbuffer["trackid"].asInt()){ tmpPos.seekTime = jsonbuffer["time"].asInt(); tmpPos.seekPos = getBytePos(); }else{ tmpPos.seekTime = 0; tmpPos.seekPos = 0; } for (JSON::ArrIter keyIt = metadata["tracks"][trackMapping[trackNo]]["keys"].ArrBegin(); keyIt != metadata["tracks"][trackMapping[trackNo]]["keys"].ArrEnd(); keyIt++){ if ((*keyIt)["time"].asInt() > ms){ break; } if ((*keyIt)["time"].asInt() > tmpPos.seekTime){ tmpPos.seekTime = (*keyIt)["time"].asInt(); tmpPos.seekPos = (*keyIt)["bpos"].asInt(); } } bool foundPacket = false; while ( !foundPacket){ if (reachedEOF()){ return false; } //Seek to first packet after ms. seek_bpos(tmpPos.seekPos); //read the header char header[20]; fread((void*)header, 20, 1, F); //check if packetID matches, if not, skip size + 8 bytes. int packSize = ntohl(((int*)header)[1]); int packID = ntohl(((int*)header)[2]); if (memcmp(header,Magic_Packet2,4) != 0 || packID != trackNo){ tmpPos.seekPos += 8 + packSize; continue; } //get timestamp of packet, if too large, break, if not, skip size bytes. long long unsigned int myTime = ((long long unsigned int)ntohl(((int*)header)[3]) << 32); myTime += ntohl(((int*)header)[4]); if (myTime >= ms){ tmpPos.seekTime = myTime; foundPacket = true; }else{ tmpPos.seekPos += 8 + packSize; continue; } } currentPositions.insert(tmpPos); } /// Attempts to seek to the given time in ms within the file. /// Returns true if successful, false otherwise. bool DTSC::File::seek_time(int ms){ currentPositions.clear(); seekPos tmpPos; for (std::set::iterator it = selectedTracks.begin(); it != selectedTracks.end(); it++){ seek_bpos(0); seek_time(ms,(*it)); } return true; } bool DTSC::File::seek_bpos(int bpos){ if (fseek(F, bpos, SEEK_SET) == 0){ return true; } return false; } void DTSC::File::writePacket(std::string & newPacket){ fseek(F, 0, SEEK_END); fwrite(newPacket.c_str(), newPacket.size(), 1, F); //write contents } void DTSC::File::writePacket(JSON::Value & newPacket){ writePacket(newPacket.toNetPacked()); } bool DTSC::File::atKeyframe(){ if (getJSON().isMember("keyframe")){ return true; } bool inHeader = false; for (std::set::iterator selectIt = selectedTracks.begin(); selectIt != selectedTracks.end(); selectIt++){ for (JSON::ObjIter oIt = metadata["tracks"].ObjBegin(); oIt != metadata["tracks"].ObjEnd(); oIt++){ if (oIt->second["trackid"].asInt() == (*selectIt)){ for (JSON::ArrIter aIt = oIt->second["keys"].ArrBegin(); aIt != oIt->second["keys"].ArrEnd(); aIt++){ if ((*aIt)["time"].asInt() == jsonbuffer["time"].asInt()){ inHeader = true; break; } } } } } return inHeader; } void DTSC::File::selectTracks(std::set & tracks){ selectedTracks = tracks; if ( !currentPositions.size()){ seek_time(0); }else{ currentPositions.clear(); } } /// Close the file if open DTSC::File::~File(){ if (F){ fclose(F); F = 0; } }