void OutProgressiveFLV::sendNext(){ FLV::Tag tag; bool tmp = tag.DTSCLoader(currentPacket, myMeta.tracks[currentPacket.getTrackId()]); if (!tmp){ DEBUG_MSG(DLVL_DEVEL, "Invalid JSON"); } myConn.SendNow(tag.data, tag.len); }
///\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