/// \file conn_http_dynamic.cpp /// Contains the main code for the HTTP Dynamic Connector #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include /// Holds everything unique to HTTP Dynamic Connector. namespace Connector_HTTP{ /// Returns AMF-format metadata std::string GetMetaData( ) { /// \todo Make this actually do what it should - even though it seems to be ignored completely by all media players. AMF::Object amfreply("container", AMF::AMF0_DDV_CONTAINER); amfreply.addContent(AMF::Object("onMetaData",AMF::AMF0_STRING)); amfreply.addContent(AMF::Object("",AMF::AMF0_ECMA_ARRAY)); amfreply.getContentP(1)->addContent(AMF::Object("trackinfo", AMF::AMF0_STRICT_ARRAY)); amfreply.getContentP(1)->getContentP(0)->addContent(AMF::Object("arrVal")); //amfreply.getContentP(1)->getContentP(0)->getContentP(0)->addContent(AMF::Object("timescale",(double)1000)); //amfreply.getContentP(1)->getContentP(0)->getContentP(0)->addContent(AMF::Object("length",(double)59641700)); amfreply.getContentP(1)->getContentP(0)->getContentP(0)->addContent(AMF::Object("language","eng")); amfreply.getContentP(1)->getContentP(0)->getContentP(0)->addContent(AMF::Object("sampledescription", AMF::AMF0_STRICT_ARRAY)); amfreply.getContentP(1)->getContentP(0)->getContentP(0)->getContentP(1)->addContent(AMF::Object("arrVal")); amfreply.getContentP(1)->getContentP(0)->getContentP(0)->getContentP(1)->getContentP(0)->addContent(AMF::Object("sampletype","avc1")); amfreply.getContentP(1)->getContentP(0)->addContent(AMF::Object("arrVal")); //amfreply.getContentP(1)->getContentP(0)->getContentP(1)->addContent(AMF::Object("timescale",(double)44100)); //amfreply.getContentP(1)->getContentP(0)->getContentP(1)->addContent(AMF::Object("length",(double)28630000)); amfreply.getContentP(1)->getContentP(0)->getContentP(1)->addContent(AMF::Object("language","eng")); amfreply.getContentP(1)->getContentP(0)->getContentP(1)->addContent(AMF::Object("sampledescription", AMF::AMF0_STRICT_ARRAY)); amfreply.getContentP(1)->getContentP(0)->getContentP(1)->getContentP(1)->addContent(AMF::Object("arrVal")); amfreply.getContentP(1)->getContentP(0)->getContentP(1)->getContentP(1)->getContentP(0)->addContent(AMF::Object("sampletype","mp4a")); amfreply.getContentP(1)->addContent(AMF::Object("audiochannels",(double)2)); amfreply.getContentP(1)->addContent(AMF::Object("audiosamplerate",(double)44100)); amfreply.getContentP(1)->addContent(AMF::Object("videoframerate",(double)25)); amfreply.getContentP(1)->addContent(AMF::Object("aacaot",(double)2)); amfreply.getContentP(1)->addContent(AMF::Object("avclevel",(double)12)); amfreply.getContentP(1)->addContent(AMF::Object("avcprofile",(double)77)); amfreply.getContentP(1)->addContent(AMF::Object("audiocodecid","mp4a")); amfreply.getContentP(1)->addContent(AMF::Object("videocodecid","avc1")); amfreply.getContentP(1)->addContent(AMF::Object("width",(double)1280)); amfreply.getContentP(1)->addContent(AMF::Object("height",(double)720)); amfreply.getContentP(1)->addContent(AMF::Object("frameWidth",(double)1280)); amfreply.getContentP(1)->addContent(AMF::Object("frameHeight",(double)720)); amfreply.getContentP(1)->addContent(AMF::Object("displayWidth",(double)1280)); amfreply.getContentP(1)->addContent(AMF::Object("displayHeight",(double)720)); //amfreply.getContentP(1)->addContent(AMF::Object("moovposition",(double)35506700)); //amfreply.getContentP(1)->addContent(AMF::Object("duration",(double)596.458)); return amfreply.Pack( ); }//getMetaData /// Returns a F4M-format manifest file std::string BuildManifest(std::string MovieId) { std::string Result="\n" "\n" "" + MovieId + "\n" "video/mp4\n" "live\n" "streaming\n" "" + Base64::encode(MP4::GenerateLiveBootstrap(1)) + "\n" "\n" "" + Base64::encode(GetMetaData()) + "\n" "\n" "\n"; return Result; }//BuildManifest /// Main function for Connector_HTTP_Dynamic int Connector_HTTP_Dynamic(Socket::Connection conn){ std::string FlashBuf; FLV::Tag tmp;//temporary tag, for init data std::queue Flash_FragBuffer;//Fragment buffer 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 inited = false; Socket::Connection ss(-1); std::string streamname; FLV::Tag tag;///< Temporary tag buffer. std::string recBuffer = ""; std::string Movie; std::string Quality; int Segment = -1; int ReqFragment = -1; int temp; 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()){ if (HTTP_R.Read(conn.Received())){ #if DEBUG >= 4 std::cout << "Received request: " << HTTP_R.url << std::endl; #endif if (HTTP_R.url.find("f4m") == std::string::npos){ Movie = HTTP_R.url.substr(1,HTTP_R.url.find("/",1)-1); Quality = HTTP_R.url.substr( HTTP_R.url.find("/",1)+1 ); Quality = Quality.substr(0, Quality.find("Seg")); 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 >= 4 printf( "Quality: %s, Seg %d Frag %d\n", Quality.c_str(), Segment, ReqFragment); #endif Flash_RequestPending++; }else{ Movie = HTTP_R.url.substr(1,HTTP_R.url.find("/",1)-1); HTTP_S.Clean(); HTTP_S.SetHeader("Content-Type","text/xml"); HTTP_S.SetHeader("Cache-Control","no-cache"); std::string manifest = BuildManifest(Movie); HTTP_S.SetBody(manifest); conn.Send(HTTP_S.BuildResponse("200", "OK")); #if DEBUG >= 3 printf("Sent manifest\n"); #endif } ready4data = true; HTTP_R.Clean(); //clean for any possible next requests }else{ #if DEBUG >= 3 fprintf(stderr, "Could not parse the following:\n%s\n", conn.Received().c_str()); #endif } } if (ready4data){ if (!inited){ //we are ready, connect the socket! ss = Socket::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 is available on the system. Please try again.\n"); conn.Send(HTTP_S.BuildResponse("404", "Not found")); ready4data = false; continue; } #if DEBUG >= 3 fprintf(stderr, "Everything connected, starting to send video data...\n"); #endif inited = true; } if ((Flash_RequestPending > 0) && !Flash_FragBuffer.empty()){ HTTP_S.Clean(); HTTP_S.SetHeader("Content-Type","video/mp4"); HTTP_S.SetBody(MP4::mdatFold(Flash_FragBuffer.front())); Flash_FragBuffer.pop(); conn.Send(HTTP_S.BuildResponse("200", "OK")); Flash_RequestPending--; #if DEBUG >= 3 fprintf(stderr, "Sending a video fragment. %i left in buffer, %i requested\n", (int)Flash_FragBuffer.size(), Flash_RequestPending); #endif } unsigned int now = time(0); if (now != lastStats){ lastStats = now; ss.Send("S "+conn.getStats("HTTP_Dynamic")); } if (ss.spool() || ss.Received() != ""){ if (Strm.parsePacket(ss.Received())){ tag.DTSCLoader(Strm); if (Strm.getPacket(0).getContentP("keyframe")){ if (FlashBuf != ""){ Flash_FragBuffer.push(FlashBuf); while (Flash_FragBuffer.size() > 2){ Flash_FragBuffer.pop(); } #if DEBUG >= 4 fprintf(stderr, "Received a fragment. Now %i in buffer.\n", (int)Flash_FragBuffer.size()); #endif } FlashBuf.clear(); //fill buffer with init data, if needed. if (Strm.metadata.getContentP("audio") && Strm.metadata.getContentP("audio")->getContentP("init")){ tmp.DTSCAudioInit(Strm); FlashBuf.append(tmp.data, tmp.len); } if (Strm.metadata.getContentP("video") && Strm.metadata.getContentP("video")->getContentP("init")){ tmp.DTSCVideoInit(Strm); FlashBuf.append(tmp.data, tmp.len); } } FlashBuf.append(tag.data, tag.len); } } } } conn.close(); ss.close(); #if DEBUG >= 1 if (FLV::Parse_Error){fprintf(stderr, "FLV Parser Error: %s\n", FLV::Error_Str.c_str());} fprintf(stderr, "User %i disconnected.\n", conn.getSocket()); if (inited){ fprintf(stderr, "Status was: inited\n"); }else{ if (ready4data){ fprintf(stderr, "Status was: ready4data\n"); }else{ fprintf(stderr, "Status was: connected\n"); } } #endif return 0; }//Connector_HTTP_Dynamic main function };//Connector_HTTP_Dynamic namespace int main(int argc, char ** argv){ Util::Config conf(argv[0], PACKAGE_VERSION); conf.addConnectorOptions(1935); conf.parseArgs(argc, argv); Socket::Server server_socket = Socket::Server("/tmp/mist/http_dynamic"); if (!server_socket.connected()){return 1;} conf.activate(); while (server_socket.connected() && conf.is_active){ Socket::Connection S = server_socket.accept(); if (S.connected()){//check if the new connection is valid pid_t myid = fork(); if (myid == 0){//if new child, start MAINHANDLER return Connector_HTTP::Connector_HTTP_Dynamic(S); }else{//otherwise, do nothing or output debugging text #if DEBUG >= 3 fprintf(stderr, "Spawned new process %i for socket %i\n", (int)myid, S.getSocket()); #endif } } }//while connected server_socket.close(); return 0; }//main