/// Sends a string in chunked format if protocol is HTTP/1.1, sends as-is otherwise. /// \param data The data to send. /// \param size The size of the data to send. /// \param conn The connection to use for sending. void HTTP::Parser::Chunkify(const char * data, unsigned int size, Socket::Connection & conn) { static char hexa[] = "0123456789abcdef"; if (bufferChunks){ if (size){ body.append(data, size); }else{ SetHeader("Content-Length", body.length()); SendResponse("200", "OK", conn); Clean(); } return; } if (sendingChunks) { //prepend the chunk size and \r\n if (!size){ conn.SendNow("0\r\n\r\n\r\n", 7); } size_t offset = 8; unsigned int t_size = size; char len[] = "\000\000\000\000\000\000\0000\r\n"; while (t_size && offset < 9){ len[--offset] = hexa[t_size & 0xf]; t_size >>= 4; } conn.SendNow(len+offset, 10-offset); //send the chunk itself conn.SendNow(data, size); //append \r\n conn.SendNow("\r\n", 2); } else {
int main(int argc, char ** argv){ Util::Config conf(argv[0], PACKAGE_VERSION); conf.addOption("streamname", JSON::fromString("{\"arg\":\"string\",\"arg_num\":1,\"help\":\"The name of the stream that this connector will transmit.\"}")); conf.addConnectorOptions(8888); conf.parseArgs(argc, argv); Socket::Server server_socket = Socket::Server(conf.getInteger("listen_port"), conf.getString("listen_interface")); 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_TS::tsConnector(S, conf.getString("streamname")); }else{ //otherwise, do nothing or output debugging text #if DEBUG >= 5 fprintf(stderr, "Spawned new process %i for socket %i\n", (int)myid, S.getSocket()); #endif } } } //while connected server_socket.close(); return 0; } //main
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_smooth"); 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
///\brief Sends a RTMP command either in AMF or AMF3 mode. ///\param amfReply The data to be sent over RTMP. ///\param messageType The type of message. ///\param streamId The ID of the AMF stream. void sendCommand(AMF::Object & amfReply, int messageType, int streamId){ #if DEBUG >= 8 std::cerr << amfReply.Print() << std::endl; #endif if (messageType == 17){ Socket.SendNow(RTMPStream::SendChunk(3, messageType, streamId, (char)0 + amfReply.Pack())); }else{ Socket.SendNow(RTMPStream::SendChunk(3, messageType, streamId, amfReply.Pack())); } } //sendCommand
/// Blocks until either the stream encounters a pause mark or the sourceSocket errors. /// This function is intended to be run after the 'q' command is sent, throwing away superfluous packets. /// It will time out after 5 seconds, disconnecting the sourceSocket. void DTSC::Stream::waitForPause(Socket::Connection & sourceSocket) { bool wasBlocking = sourceSocket.isBlocking(); sourceSocket.setBlocking(false); //cancel the attempt after 5000 milliseconds long long int start = Util::getMS(); while (lastType() != DTSC::PAUSEMARK && sourceSocket.connected() && Util::getMS() - start < 5000) { //we have data? parse it if (sourceSocket.Received().size()) { //return value is ignored because we're not interested. parsePacket(sourceSocket.Received()); } //still no pause mark? check for more data if (lastType() != DTSC::PAUSEMARK) { if (sourceSocket.spool()) { //more received? attempt to read //return value is ignored because we're not interested in data packets, just metadata. parsePacket(sourceSocket.Received()); } else { //nothing extra to receive? wait a bit and retry Util::sleep(10); } } } sourceSocket.setBlocking(wasBlocking); //if the timeout has passed, close the socket if (Util::getMS() - start >= 5000) { sourceSocket.close(); //and optionally print a debug message that this happened DEBUG_MSG(DLVL_DEVEL, "Timing out while waiting for pause break"); } }
int main(int argc, char ** argv){ Util::Config conf(argv[0], PACKAGE_VERSION); JSON::Value capa; capa["desc"] = "Enables the raw MPEG Transport Stream protocol over TCP."; capa["deps"] = ""; capa["required"]["streamname"]["name"] = "Stream"; capa["required"]["streamname"]["help"] = "What streamname to serve. For multiple streams, add this protocol multiple times using different ports."; capa["required"]["streamname"]["type"] = "str"; capa["required"]["streamname"]["option"] = "--stream"; capa["optional"]["tracks"]["name"] = "Tracks"; capa["optional"]["tracks"]["help"] = "The track IDs of the stream that this connector will transmit separated by spaces"; capa["optional"]["tracks"]["type"] = "str"; capa["optional"]["tracks"]["option"] = "--tracks"; conf.addOption("streamname", JSON::fromString("{\"arg\":\"string\",\"short\":\"s\",\"long\":\"stream\",\"help\":\"The name of the stream that this connector will transmit.\"}")); conf.addOption("tracks", JSON::fromString("{\"arg\":\"string\",\"value\":[\"\"],\"short\": \"t\",\"long\":\"tracks\",\"help\":\"The track IDs of the stream that this connector will transmit separated by spaces.\"}")); conf.addConnectorOptions(8888, capa); bool ret = conf.parseArgs(argc, argv); if (conf.getBool("json")){ std::cout << capa.toString() << std::endl; return -1; } if (!ret){ std::cerr << "Usage error: missing argument(s)." << std::endl; conf.printHelp(std::cout); return 1; } Socket::Server server_socket = Socket::Server(conf.getInteger("listen_port"), conf.getString("listen_interface")); 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_TS::tsConnector(S, conf.getString("streamname"), conf.getString("tracks")); }else{ //otherwise, do nothing or output debugging text #if DEBUG >= 5 fprintf(stderr, "Spawned new process %i for socket %i\n", (int)myid, S.getSocket()); #endif } } } //while connected server_socket.close(); return 0; } //main
/// Starts a loop, waiting for connections to send data to. int Start(int argc, char ** argv) { Util::Config conf = Util::Config(argv[0], PACKAGE_VERSION); conf.addOption("stream_name", JSON::fromString("{\"arg_num\":1, \"arg\":\"string\", \"help\":\"Name of the stream this buffer will be providing.\"}")); conf.addOption("awaiting_ip", JSON::fromString("{\"arg_num\":2, \"arg\":\"string\", \"default\":\"\", \"help\":\"IP address to expect incoming data from. This will completely disable reading from standard input if used.\"}")); conf.addOption("reportstats", JSON::fromString("{\"default\":0, \"help\":\"Report stats to a controller process.\", \"short\":\"s\", \"long\":\"reportstats\"}")); conf.parseArgs(argc, argv); std::string name = conf.getString("stream_name"); SS = Util::Stream::makeLive(name); if (!SS.connected()) { perror("Could not create stream socket"); return 1; } conf.activate(); thisStream = Stream::get(); thisStream->setName(name); Socket::Connection incoming; Socket::Connection std_input(fileno(stdin)); tthread::thread * StatsThread = 0; if (conf.getBool("reportstats")){StatsThread = new tthread::thread(handleStats, 0);} tthread::thread * StdinThread = 0; std::string await_ip = conf.getString("awaiting_ip"); if (await_ip == ""){ StdinThread = new tthread::thread(handleStdin, 0); }else{ thisStream->setWaitingIP(await_ip); StdinThread = new tthread::thread(handlePushin, 0); } while (buffer_running && SS.connected() && conf.is_active){ //check for new connections, accept them if there are any //starts a thread for every accepted connection incoming = SS.accept(true); if (incoming.connected()){ user * usr_ptr = new user(incoming); thisStream->addUser(usr_ptr); usr_ptr->Thread = new tthread::thread(handleUser, (void *)usr_ptr); } }//main loop // disconnect listener buffer_running = false; std::cout << "End of input file - buffer shutting down" << std::endl; SS.close(); if (StatsThread){StatsThread->join();} StdinThread->join(); delete thisStream; return 0; }
/// Attempt to read a whole HTTP request or response from a Socket::Connection. /// If a whole request could be read, it is removed from the front of the socket buffer and true returned. /// If not, as much as can be interpreted is removed and false returned. /// \param conn The socket to read from. /// \return True if a whole request or response was read, false otherwise. bool HTTP::Parser::Read(Socket::Connection & conn) { //Make sure the received data ends in a newline (\n). while ((!seenHeaders || (getChunks && !doingChunk)) && conn.Received().get().size() && *(conn.Received().get().rbegin()) != '\n') { if (conn.Received().size() > 1) { //make a copy of the first part std::string tmp = conn.Received().get(); //clear the first part, wiping it from the partlist conn.Received().get().clear(); conn.Received().size(); //take the now first (was second) part, insert the stored part in front of it conn.Received().get().insert(0, tmp); } else { return false; } } //if a parse succeeds, simply return true if (parse(conn.Received().get())) { return true; } //otherwise, if we have parts left, call ourselves recursively if (conn.Received().size()) { return Read(conn); } return false; } //HTTPReader::Read
/// Creates and sends a valid HTTP 1.0 or 1.1 request. /// The request is build from internal variables set before this call is made. /// To be precise, method, url, protocol, headers and body are used. void HTTP::Parser::SendRequest(Socket::Connection & conn) { /// \todo Include GET/POST variable parsing? std::map<std::string, std::string>::iterator it; if (protocol.size() < 5 || protocol[4] != '/') { protocol = "HTTP/1.0"; } builder = method + " " + url + " " + protocol + "\r\n"; conn.SendNow(builder); for (it = headers.begin(); it != headers.end(); it++) { if ((*it).first != "" && (*it).second != "") { builder = (*it).first + ": " + (*it).second + "\r\n"; conn.SendNow(builder); } } conn.SendNow("\r\n", 2); conn.SendNow(body); }
///\brief The standard process-spawning main function. int main(int argc, char ** argv){ Util::Config conf(argv[0], PACKAGE_VERSION); JSON::Value capa; capa["desc"] = "Enables the RTMP protocol which is used by Adobe Flash Player."; capa["deps"] = ""; capa["url_rel"] = "/play/$"; capa["codecs"][0u][0u].append("H264"); capa["codecs"][0u][0u].append("H263"); capa["codecs"][0u][0u].append("VP6"); capa["codecs"][0u][1u].append("AAC"); capa["codecs"][0u][1u].append("MP3"); capa["methods"][0u]["handler"] = "rtmp"; capa["methods"][0u]["type"] = "flash/10"; capa["methods"][0u]["priority"] = 6ll; conf.addConnectorOptions(1935, capa); conf.parseArgs(argc, argv); if (conf.getBool("json")){ std::cout << capa.toString() << std::endl; return -1; } Socket::Server server_socket = Socket::Server(conf.getInteger("listen_port"), conf.getString("listen_interface")); 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_RTMP::rtmpConnector(S); }else{ //otherwise, do nothing or output debugging text #if DEBUG >= 5 fprintf(stderr, "Spawned new process %i for socket %i\n", (int)myid, S.getSocket()); #endif } } } //while connected server_socket.close(); return 0; } //main
/// Creates and sends a valid HTTP 1.0 or 1.1 response. /// The response is partly build from internal variables set before this call is made. /// To be precise, protocol, headers and body are used. /// This call will attempt to buffer as little as possible and block until the whole request is sent. /// \param code The HTTP response code. Usually you want 200. /// \param message The HTTP response message. Usually you want "OK". /// \param conn The Socket::Connection to send the response over. void HTTP::Parser::SendResponse(std::string code, std::string message, Socket::Connection & conn) { /// \todo Include GET/POST variable parsing? std::map<std::string, std::string>::iterator it; if (protocol.size() < 5 || protocol[4] != '/') { protocol = "HTTP/1.0"; } builder = protocol + " " + code + " " + message + "\r\n"; conn.SendNow(builder); for (it = headers.begin(); it != headers.end(); it++) { if ((*it).first != "" && (*it).second != "") { if ((*it).first != "Content-Length" || (*it).second != "0") { builder = (*it).first + ": " + (*it).second + "\r\n"; conn.SendNow(builder); } } } conn.SendNow("\r\n", 2); conn.SendNow(body); }
void handleStats(void * empty){ if (empty != 0){return;} std::string double_newline = "\n\n"; Socket::Connection StatsSocket = Socket::Connection("/tmp/mist/statistics", true); while (buffer_running){ usleep(1000000); //sleep one second if (!StatsSocket.connected()){ StatsSocket = Socket::Connection("/tmp/mist/statistics", true); } if (StatsSocket.connected()){ StatsSocket.Send(Stream::get()->getStats()); StatsSocket.Send(double_newline); StatsSocket.flush(); } } StatsSocket.close(); }
/// Main function for Connector_HTTP_Dynamic int Connector_HTTP_Dynamic(Socket::Connection conn){ std::deque<std::string> FlashBuf; std::vector<int> Timestamps; int FlashBufSize = 0; long long int FlashBufTime = 0; 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 pending_manifest = false; bool receive_marks = false; //when set to true, this stream will ignore keyframes and instead use pause marks bool inited = false; Socket::Connection ss( -1); std::string streamname; std::string recBuffer = ""; bool wantsVideo = false; bool wantsAudio = false; std::string Quality; int Segment = -1; long long int ReqFragment = -1; int temp; std::string tempStr; 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() || 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 >= 4 std::cout << "Received request: " << HTTP_R.getUrl() << std::endl; #endif conn.setHost(HTTP_R.GetHeader("X-Origin")); if (HTTP_R.url.find("Manifest") == std::string::npos){ streamname = HTTP_R.url.substr(8, HTTP_R.url.find("/", 8) - 12); if ( !ss){ ss = Util::Stream::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 " + streamname + " is available on the system. Please try again.\n"); conn.SendNow(HTTP_S.BuildResponse("404", "Not found")); ready4data = false; continue; } ss.setBlocking(false); inited = true; } Quality = HTTP_R.url.substr(HTTP_R.url.find("/Q(", 8) + 3); Quality = Quality.substr(0, Quality.find(")")); tempStr = HTTP_R.url.substr(HTTP_R.url.find(")/") + 2); wantsAudio = false; wantsVideo = false; if (tempStr[0] == 'A'){ wantsAudio = true; } if (tempStr[0] == 'V'){ wantsVideo = true; } tempStr = tempStr.substr(tempStr.find("(") + 1); ReqFragment = atoll(tempStr.substr(0, tempStr.find(")")).c_str()); #if DEBUG >= 4 printf("Quality: %s, Frag %d\n", Quality.c_str(), (ReqFragment / 10000)); #endif std::stringstream sstream; sstream << "s " << (ReqFragment / 10000) << "\no \n"; ss.SendNow(sstream.str().c_str()); Flash_RequestPending++; }else{ streamname = HTTP_R.url.substr(8, HTTP_R.url.find("/", 8) - 12); if ( !Strm.metadata.isNull()){ HTTP_S.Clean(); HTTP_S.SetHeader("Content-Type", "text/xml"); HTTP_S.SetHeader("Cache-Control", "no-cache"); if (Strm.metadata.isMember("length")){ receive_marks = true; } std::string manifest = BuildManifest(streamname, Strm.metadata); HTTP_S.SetBody(manifest); conn.SendNow(HTTP_S.BuildResponse("200", "OK")); #if DEBUG >= 3 printf("Sent manifest\n"); #endif pending_manifest = false; }else{ pending_manifest = true; } } ready4data = true; HTTP_R.Clean(); //clean for any possible next requests } }else{ if (Flash_RequestPending){ usleep(1000); //sleep 1ms }else{ usleep(10000); //sleep 10ms } } if (ready4data){ if ( !inited){ //we are ready, connect the socket! ss = Util::Stream::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 " + streamname + " is available on the system. Please try again.\n"); conn.SendNow(HTTP_S.BuildResponse("404", "Not found")); ready4data = false; continue; } ss.setBlocking(false); #if DEBUG >= 3 fprintf(stderr, "Everything connected, starting to send video data...\n"); #endif inited = true; } unsigned int now = Util::epoch(); if (now != lastStats){ lastStats = now; ss.SendNow(conn.getStats("HTTP_Smooth").c_str()); } if (ss.spool()){ while (Strm.parsePacket(ss.Received())){ if (Strm.getPacket(0).isMember("time")){ if ( !Strm.metadata.isMember("firsttime")){ Strm.metadata["firsttime"] = Strm.getPacket(0)["time"]; }else{ if ( !Strm.metadata.isMember("length") || Strm.metadata["length"].asInt() == 0){ Strm.getPacket(0)["time"] = Strm.getPacket(0)["time"].asInt() - Strm.metadata["firsttime"].asInt(); } } Strm.metadata["lasttime"] = Strm.getPacket(0)["time"]; } if (pending_manifest){ HTTP_S.Clean(); HTTP_S.SetHeader("Content-Type", "text/xml"); HTTP_S.SetHeader("Cache-Control", "no-cache"); if (Strm.metadata.isMember("length")){ receive_marks = true; } std::string manifest = BuildManifest(streamname, Strm.metadata); HTTP_S.SetBody(manifest); conn.SendNow(HTTP_S.BuildResponse("200", "OK")); #if DEBUG >= 3 printf("Sent manifest\n"); #endif pending_manifest = false; } if ( !receive_marks && Strm.metadata.isMember("length")){ receive_marks = true; } if (Strm.lastType() == DTSC::PAUSEMARK){ Timestamps.push_back(Strm.getPacket(0)["time"].asInt()); } if ((Strm.getPacket(0).isMember("keyframe") && !receive_marks) || Strm.lastType() == DTSC::PAUSEMARK){ #if DEBUG >= 4 fprintf(stderr, "Received a %s fragment of %i bytes.\n", Strm.getPacket(0)["datatype"].asString().c_str(), FlashBufSize); #endif if (Flash_RequestPending > 0 && FlashBufSize){ #if DEBUG >= 3 fprintf(stderr, "Sending a fragment..."); #endif //static std::string btstrp; //btstrp = GenerateBootstrap(streamname, Strm.metadata, ReqFragment, FlashBufTime, Strm.getPacket(0)["time"]); HTTP_S.Clean(); HTTP_S.SetHeader("Content-Type", "video/mp4"); HTTP_S.SetBody(""); int myDuration; MP4::MFHD mfhd_box; for (int i = 0; i < Strm.metadata["keytime"].size(); i++){ if (Strm.metadata["keytime"][i].asInt() >= (ReqFragment / 10000)){ mfhd_box.setSequenceNumber(i + 1); if (i != Strm.metadata["keytime"].size()){ myDuration = Strm.metadata["keytime"][i + 1].asInt() - Strm.metadata["keytime"][i].asInt(); }else{ myDuration = Strm.metadata["lastms"].asInt() - Strm.metadata["keytime"][i].asInt(); } myDuration = myDuration * 10000; break; } } MP4::TFHD tfhd_box; tfhd_box.setFlags(MP4::tfhdSampleFlag); tfhd_box.setTrackID(1); tfhd_box.setDefaultSampleFlags(0x000000C0 | MP4::noIPicture | MP4::noDisposable | MP4::noKeySample); MP4::TRUN trun_box; //maybe reinsert dataOffset trun_box.setFlags(MP4::trundataOffset | MP4::trunfirstSampleFlags | MP4::trunsampleDuration | MP4::trunsampleSize); trun_box.setDataOffset(42); trun_box.setFirstSampleFlags(0x00000040 | MP4::isIPicture | MP4::noDisposable | MP4::isKeySample); for (int i = 0; i < FlashBuf.size(); i++){ MP4::trunSampleInformation trunSample; trunSample.sampleSize = FlashBuf[i].size(); //trunSample.sampleDuration = (Timestamps[i+1]-Timestamps[i]) * 10000; trunSample.sampleDuration = (((double)myDuration / FlashBuf.size()) * i) - (((double)myDuration / FlashBuf.size()) * (i - 1)); trun_box.setSampleInformation(trunSample, i); } MP4::SDTP sdtp_box; sdtp_box.setVersion(0); sdtp_box.setValue(0x24, 4); for (int i = 1; i < FlashBuf.size(); i++){ sdtp_box.setValue(0x14, 4 + i); } MP4::TRAF traf_box; traf_box.setContent(tfhd_box, 0); traf_box.setContent(trun_box, 1); traf_box.setContent(sdtp_box, 2); MP4::MOOF moof_box; moof_box.setContent(mfhd_box, 0); moof_box.setContent(traf_box, 1); //setting tha offsets! trun_box.setDataOffset(moof_box.boxedSize() + 8); traf_box.setContent(trun_box, 1); moof_box.setContent(traf_box, 1); //std::cerr << "\t[encoded] = " << ((MP4::TRUN&)(((MP4::TRAF&)(moof_box.getContent(1))).getContent(1))).getDataOffset() << std::endl; HTTP_S.SetHeader("Content-Length", FlashBufSize + 8 + moof_box.boxedSize()); //32+33+btstrp.size()); conn.SendNow(HTTP_S.BuildResponse("200", "OK")); conn.SendNow(moof_box.asBox(), moof_box.boxedSize()); 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(); } Flash_RequestPending--; #if DEBUG >= 3 fprintf(stderr, "Done\n"); #endif } FlashBuf.clear(); FlashBufSize = 0; } if ((wantsAudio && Strm.lastType() == DTSC::AUDIO) || (wantsVideo && Strm.lastType() == DTSC::VIDEO)){ FlashBuf.push_back(Strm.lastData()); FlashBufSize += Strm.lastData().size(); Timestamps.push_back(Strm.getPacket(0)["time"].asInt()); } } if (pending_manifest && !Strm.metadata.isNull()){ HTTP_S.Clean(); HTTP_S.SetHeader("Content-Type", "text/xml"); HTTP_S.SetHeader("Cache-Control", "no-cache"); if (Strm.metadata.isMember("length")){ receive_marks = true; } std::string manifest = BuildManifest(streamname, Strm.metadata); HTTP_S.SetBody(manifest); conn.SendNow(HTTP_S.BuildResponse("200", "OK")); #if DEBUG >= 3 printf("Sent manifest\n"); #endif pending_manifest = false; } } if ( !ss.connected()){ break; } } } conn.close(); ss.SendNow(conn.getStats("HTTP_Smooth").c_str()); ss.close(); return 0; } //Connector_HTTP_Smooth main function
///\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
///\brief Main function for the RTMP Connector ///\param conn A socket describing the connection the client. ///\return The exit code of the connector. int rtmpConnector(Socket::Connection conn){ Socket = conn; Socket.setBlocking(false); FLV::Tag tag, init_tag; DTSC::Stream Strm; while ( !Socket.Received().available(1537) && Socket.connected()){ Socket.spool(); Util::sleep(5); } RTMPStream::handshake_in = Socket.Received().remove(1537); RTMPStream::rec_cnt += 1537; if (RTMPStream::doHandshake()){ Socket.SendNow(RTMPStream::handshake_out); while ( !Socket.Received().available(1536) && Socket.connected()){ Socket.spool(); Util::sleep(5); } Socket.Received().remove(1536); RTMPStream::rec_cnt += 1536; #if DEBUG >= 5 fprintf(stderr, "Handshake succcess!\n"); #endif }else{ #if DEBUG >= 5 fprintf(stderr, "Handshake fail!\n"); #endif return 0; } unsigned int lastStats = 0; bool firsttime = true; while (Socket.connected()){ if (Socket.spool() || firsttime){ parseChunk(Socket.Received()); firsttime = false; }else{ Util::sleep(1); //sleep 1ms to prevent high CPU usage } if (ready4data){ if ( !inited){ //we are ready, connect the socket! ss = Util::Stream::getStream(streamName); if ( !ss.connected()){ #if DEBUG >= 1 fprintf(stderr, "Could not connect to server!\n"); #endif Socket.close(); //disconnect user break; } ss.setBlocking(false); Strm.waitForMeta(ss); //find first audio and video tracks for (JSON::ObjIter objIt = Strm.metadata["tracks"].ObjBegin(); objIt != Strm.metadata["tracks"].ObjEnd(); objIt++){ if (videoID == -1 && objIt->second["type"].asStringRef() == "video"){ videoID = objIt->second["trackid"].asInt(); } if (audioID == -1 && objIt->second["type"].asStringRef() == "audio"){ audioID = objIt->second["trackid"].asInt(); } } //select the tracks and play std::stringstream cmd; cmd << "t"; if (videoID != -1){ cmd << " " << videoID; } if (audioID != -1){ cmd << " " << audioID; } cmd << "\np\n"; ss.SendNow(cmd.str().c_str()); inited = true; } if (inited && !noStats){ long long int now = Util::epoch(); if (now != lastStats){ lastStats = now; ss.SendNow(Socket.getStats("RTMP")); } } if (ss.spool()){ while (Strm.parsePacket(ss.Received())){ if (playTransaction != -1){ //send a status reply AMF::Object amfreply("container", AMF::AMF0_DDV_CONTAINER); amfreply.addContent(AMF::Object("", "onStatus")); //status reply amfreply.addContent(AMF::Object("", (double)playTransaction)); //same transaction ID amfreply.addContent(AMF::Object("", (double)0, AMF::AMF0_NULL)); //null - command info amfreply.addContent(AMF::Object("")); //info amfreply.getContentP(3)->addContent(AMF::Object("level", "status")); amfreply.getContentP(3)->addContent(AMF::Object("code", "NetStream.Play.Reset")); amfreply.getContentP(3)->addContent(AMF::Object("description", "Playing and resetting...")); amfreply.getContentP(3)->addContent(AMF::Object("details", "DDV")); amfreply.getContentP(3)->addContent(AMF::Object("clientid", (double)1337)); sendCommand(amfreply, playMessageType, playStreamId); //send streamisrecorded if stream, well, is recorded. if (Strm.metadata.isMember("length") && Strm.metadata["length"].asInt() > 0){ Socket.Send(RTMPStream::SendUSR(4, 1)); //send UCM StreamIsRecorded (4), stream 1 } //send streambegin Socket.Send(RTMPStream::SendUSR(0, 1)); //send UCM StreamBegin (0), stream 1 //and more reply amfreply = AMF::Object("container", AMF::AMF0_DDV_CONTAINER); amfreply.addContent(AMF::Object("", "onStatus")); //status reply amfreply.addContent(AMF::Object("", (double)playTransaction)); //same transaction ID amfreply.addContent(AMF::Object("", (double)0, AMF::AMF0_NULL)); //null - command info amfreply.addContent(AMF::Object("")); //info amfreply.getContentP(3)->addContent(AMF::Object("level", "status")); amfreply.getContentP(3)->addContent(AMF::Object("code", "NetStream.Play.Start")); amfreply.getContentP(3)->addContent(AMF::Object("description", "Playing!")); amfreply.getContentP(3)->addContent(AMF::Object("details", "DDV")); amfreply.getContentP(3)->addContent(AMF::Object("clientid", (double)1337)); sendCommand(amfreply, playMessageType, playStreamId); RTMPStream::chunk_snd_max = 102400; //100KiB Socket.Send(RTMPStream::SendCTL(1, RTMPStream::chunk_snd_max)); //send chunk size max (msg 1) //send dunno? Socket.Send(RTMPStream::SendUSR(32, 1)); //send UCM no clue?, stream 1 playTransaction = -1; } //sent init data if needed if ( !streamInited){ init_tag.DTSCMetaInit(Strm, Strm.getTrackById(videoID), Strm.getTrackById(audioID)); Socket.SendNow(RTMPStream::SendMedia(init_tag)); if (audioID != -1 && Strm.getTrackById(audioID).isMember("init")){ init_tag.DTSCAudioInit(Strm.getTrackById(audioID)); Socket.SendNow(RTMPStream::SendMedia(init_tag)); } if (videoID != -1 && Strm.getTrackById(videoID).isMember("init")){ init_tag.DTSCVideoInit(Strm.getTrackById(videoID)); Socket.SendNow(RTMPStream::SendMedia(init_tag)); } streamInited = true; } //sent a tag tag.DTSCLoader(Strm); Socket.SendNow(RTMPStream::SendMedia(tag)); #if DEBUG >= 8 fprintf(stderr, "Sent tag to %i: [%u] %s\n", Socket.getSocket(), tag.tagTime(), tag.tagType().c_str()); #endif } } } } Socket.close(); ss.SendNow(Socket.getStats("RTMP").c_str()); ss.close(); return 0; } //Connector_RTMP
///\brief Starts a loop, waiting for connections to send data to. ///\param argc The number of arguments to the program. ///\param argv The arguments to the program. ///\return The return code of the buffer. int Start(int argc, char ** argv){ /*std::ofstream myfile ("/home/sharvanath/mistserver/test.txt",std::ios::app); //struct sockaddr add; //socklen_t add_length=sizeof(struct sockaddr); //getsockname(incoming.sock, &add,&add_length); myfile<<"hello1\n"; //myfile << "the family here is : "<<add.sa_family<<"\n"; myfile.close(); */ Util::Config conf = Util::Config(argv[0], PACKAGE_VERSION); conf.addOption("stream_name", JSON::fromString("{\"arg_num\":1, \"arg\":\"string\", \"help\":\"Name of the stream this buffer will be providing.\"}")); conf.addOption("awaiting_ip", JSON::fromString( "{\"arg_num\":2, \"arg\":\"string\", \"default\":\"\", \"help\":\"IP address to expect incoming data from. This will completely disable reading from standard input if used.\"}")); conf.addOption("reportstats", JSON::fromString("{\"default\":0, \"help\":\"Report stats to a controller process.\", \"short\":\"s\", \"long\":\"reportstats\"}")); conf.addOption("time", JSON::fromString( "{\"default\":0, \"arg\": \"integer\", \"help\":\"Buffer a specied amount of time in ms.\", \"short\":\"t\", \"long\":\"time\"}")); conf.parseArgs(argc, argv); std::string name = conf.getString("stream_name"); SS = Util::Stream::makeLive(name); if ( !SS.connected()){ perror("Could not create stream socket"); return 1; } SS.setBlocking(false); conf.activate(); thisStream = Stream::get(); thisStream->setName(name); thisStream->getStream()->setBufferTime(conf.getInteger("time")); Socket::Connection incoming; Socket::Connection std_input(fileno(stdin)); if (conf.getBool("reportstats")){ tthread::thread StatsThread(handleStats, 0); StatsThread.detach(); } std::string await_ip = conf.getString("awaiting_ip"); if (await_ip == ""){ tthread::thread StdinThread(handleStdin, 0); StdinThread.detach(); }else{ thisStream->setWaitingIP(await_ip); tthread::thread StdinThread(handlePushin, 0); StdinThread.detach(); } while (buffer_running && SS.connected() && conf.is_active){ //check for new connections, accept them if there are any //starts a thread for every accepted connection //sharva_mod incoming = SS.accept(true); if (incoming.connected()){ tthread::thread thisUser(handleUser, (void *)new user(incoming)); thisUser.detach(); }else{ Util::sleep(50);//sleep 50ms } } //main loop // disconnect listener buffer_running = false; std::cout << "Buffer shutting down" << std::endl; SS.close(); if (thisStream->getIPInput().connected()){ thisStream->getIPInput().close(); } delete thisStream; return 0; }
///\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
/// Main Connector_RTMP function int Connector_RTMP::Connector_RTMP(Socket::Connection conn){ Socket = conn; Socket.setBlocking(false); FLV::Tag tag, init_tag; DTSC::Stream Strm; while (!Socket.Received().available(1537) && Socket.connected()){Socket.spool(); Util::sleep(5);} RTMPStream::handshake_in = Socket.Received().remove(1537); RTMPStream::rec_cnt += 1537; if (RTMPStream::doHandshake()){ Socket.SendNow(RTMPStream::handshake_out); while (!Socket.Received().available(1536) && Socket.connected()){Socket.spool(); Util::sleep(5);} Socket.Received().remove(1536); RTMPStream::rec_cnt += 1536; #if DEBUG >= 4 fprintf(stderr, "Handshake succcess!\n"); #endif }else{ #if DEBUG >= 1 fprintf(stderr, "Handshake fail!\n"); #endif return 0; } unsigned int lastStats = 0; bool firsttime = true; while (Socket.connected()){ if (Socket.spool() || firsttime){ parseChunk(Socket.Received()); firsttime = false; }else{ Util::sleep(1);//sleep 1ms to prevent high CPU usage } if (ready4data){ if (!inited){ //we are ready, connect the socket! SS = Util::Stream::getStream(streamname); if (!SS.connected()){ #if DEBUG >= 1 fprintf(stderr, "Could not connect to server!\n"); #endif Socket.close();//disconnect user break; } SS.setBlocking(false); #if DEBUG >= 3 fprintf(stderr, "Everything connected, starting to send video data...\n"); #endif SS.SendNow("p\n"); inited = true; } if (inited && !nostats){ long long int now = Util::epoch(); if (now != lastStats){ lastStats = now; SS.SendNow(Socket.getStats("RTMP").c_str()); } } if (SS.spool()){ while (Strm.parsePacket(SS.Received())){ if (play_trans != -1){ //send a status reply AMF::Object amfreply("container", AMF::AMF0_DDV_CONTAINER); amfreply.addContent(AMF::Object("", "onStatus"));//status reply amfreply.addContent(AMF::Object("", (double)play_trans));//same transaction ID amfreply.addContent(AMF::Object("", (double)0, AMF::AMF0_NULL));//null - command info amfreply.addContent(AMF::Object(""));//info amfreply.getContentP(3)->addContent(AMF::Object("level", "status")); amfreply.getContentP(3)->addContent(AMF::Object("code", "NetStream.Play.Reset")); amfreply.getContentP(3)->addContent(AMF::Object("description", "Playing and resetting...")); amfreply.getContentP(3)->addContent(AMF::Object("details", "DDV")); amfreply.getContentP(3)->addContent(AMF::Object("clientid", (double)1337)); sendCommand(amfreply, play_msgtype, play_streamid); //send streamisrecorded if stream, well, is recorded. if (Strm.metadata.isMember("length") && Strm.metadata["length"].asInt() > 0){ Socket.Send(RTMPStream::SendUSR(4, 1));//send UCM StreamIsRecorded (4), stream 1 } //send streambegin Socket.Send(RTMPStream::SendUSR(0, 1));//send UCM StreamBegin (0), stream 1 //and more reply amfreply = AMF::Object("container", AMF::AMF0_DDV_CONTAINER); amfreply.addContent(AMF::Object("", "onStatus"));//status reply amfreply.addContent(AMF::Object("", (double)play_trans));//same transaction ID amfreply.addContent(AMF::Object("", (double)0, AMF::AMF0_NULL));//null - command info amfreply.addContent(AMF::Object(""));//info amfreply.getContentP(3)->addContent(AMF::Object("level", "status")); amfreply.getContentP(3)->addContent(AMF::Object("code", "NetStream.Play.Start")); amfreply.getContentP(3)->addContent(AMF::Object("description", "Playing!")); amfreply.getContentP(3)->addContent(AMF::Object("details", "DDV")); amfreply.getContentP(3)->addContent(AMF::Object("clientid", (double)1337)); sendCommand(amfreply, play_msgtype, play_streamid); RTMPStream::chunk_snd_max = 102400;//100KiB Socket.Send(RTMPStream::SendCTL(1, RTMPStream::chunk_snd_max));//send chunk size max (msg 1) //send dunno? Socket.Send(RTMPStream::SendUSR(32, 1));//send UCM no clue?, stream 1 play_trans = -1; } //sent init data if needed if (!stream_inited){ init_tag.DTSCMetaInit(Strm); Socket.SendNow(RTMPStream::SendMedia(init_tag)); if (Strm.metadata.isMember("audio") && Strm.metadata["audio"].isMember("init")){ init_tag.DTSCAudioInit(Strm); Socket.SendNow(RTMPStream::SendMedia(init_tag)); } if (Strm.metadata.isMember("video") && Strm.metadata["video"].isMember("init")){ init_tag.DTSCVideoInit(Strm); Socket.SendNow(RTMPStream::SendMedia(init_tag)); } stream_inited = true; } //sent a tag tag.DTSCLoader(Strm); Socket.SendNow(RTMPStream::SendMedia(tag)); #if DEBUG >= 8 fprintf(stderr, "Sent tag to %i: [%u] %s\n", Socket.getSocket(), tag.tagTime(), tag.tagType().c_str()); #endif } } } } Socket.close(); SS.SendNow(Socket.getStats("RTMP").c_str()); SS.close(); #if DEBUG >= 1 if (FLV::Parse_Error){fprintf(stderr, "FLV Parse 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_RTMP
///\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; }
///\brief Parses a single AMF command message, and sends a direct response through sendCommand(). ///\param amfData The received request. ///\param messageType The type of message. ///\param streamId The ID of the AMF stream. void parseAMFCommand(AMF::Object & amfData, int messageType, int streamId){ #if DEBUG >= 5 fprintf(stderr, "Received command: %s\n", amfData.Print().c_str()); #endif #if DEBUG >= 8 fprintf(stderr, "AMF0 command: %s\n", amfData.getContentP(0)->StrValue().c_str()); #endif if (amfData.getContentP(0)->StrValue() == "connect"){ double objencoding = 0; if (amfData.getContentP(2)->getContentP("objectEncoding")){ objencoding = amfData.getContentP(2)->getContentP("objectEncoding")->NumValue(); } #if DEBUG >= 6 int tmpint; if (amfData.getContentP(2)->getContentP("videoCodecs")){ tmpint = (int)amfData.getContentP(2)->getContentP("videoCodecs")->NumValue(); if (tmpint & 0x04){ fprintf(stderr, "Sorensen video support detected\n"); } if (tmpint & 0x80){ fprintf(stderr, "H264 video support detected\n"); } } if (amfData.getContentP(2)->getContentP("audioCodecs")){ tmpint = (int)amfData.getContentP(2)->getContentP("audioCodecs")->NumValue(); if (tmpint & 0x04){ fprintf(stderr, "MP3 audio support detected\n"); } if (tmpint & 0x400){ fprintf(stderr, "AAC audio support detected\n"); } } #endif app_name = amfData.getContentP(2)->getContentP("tcUrl")->StrValue(); app_name = app_name.substr(app_name.find('/', 7) + 1); RTMPStream::chunk_snd_max = 4096; Socket.Send(RTMPStream::SendCTL(1, RTMPStream::chunk_snd_max)); //send chunk size max (msg 1) Socket.Send(RTMPStream::SendCTL(5, RTMPStream::snd_window_size)); //send window acknowledgement size (msg 5) Socket.Send(RTMPStream::SendCTL(6, RTMPStream::rec_window_size)); //send rec window acknowledgement size (msg 6) Socket.Send(RTMPStream::SendUSR(0, 1)); //send UCM StreamBegin (0), stream 1 //send a _result reply AMF::Object amfReply("container", AMF::AMF0_DDV_CONTAINER); amfReply.addContent(AMF::Object("", "_result")); //result success amfReply.addContent(amfData.getContent(1)); //same transaction ID amfReply.addContent(AMF::Object("")); //server properties amfReply.getContentP(2)->addContent(AMF::Object("fmsVer", "FMS/3,5,5,2004")); amfReply.getContentP(2)->addContent(AMF::Object("capabilities", (double)31)); amfReply.getContentP(2)->addContent(AMF::Object("mode", (double)1)); amfReply.addContent(AMF::Object("")); //info amfReply.getContentP(3)->addContent(AMF::Object("level", "status")); amfReply.getContentP(3)->addContent(AMF::Object("code", "NetConnection.Connect.Success")); amfReply.getContentP(3)->addContent(AMF::Object("description", "Connection succeeded.")); amfReply.getContentP(3)->addContent(AMF::Object("clientid", 1337)); amfReply.getContentP(3)->addContent(AMF::Object("objectEncoding", objencoding)); //amfReply.getContentP(3)->addContent(AMF::Object("data", AMF::AMF0_ECMA_ARRAY)); //amfReply.getContentP(3)->getContentP(4)->addContent(AMF::Object("version", "3,5,4,1004")); sendCommand(amfReply, messageType, streamId); //send onBWDone packet - no clue what it is, but real server sends it... //amfReply = AMF::Object("container", AMF::AMF0_DDV_CONTAINER); //amfReply.addContent(AMF::Object("", "onBWDone"));//result //amfReply.addContent(amfData.getContent(1));//same transaction ID //amfReply.addContent(AMF::Object("", (double)0, AMF::AMF0_NULL));//null //sendCommand(amfReply, messageType, streamId); return; } //connect if (amfData.getContentP(0)->StrValue() == "createStream"){ //send a _result reply AMF::Object amfReply("container", AMF::AMF0_DDV_CONTAINER); amfReply.addContent(AMF::Object("", "_result")); //result success amfReply.addContent(amfData.getContent(1)); //same transaction ID amfReply.addContent(AMF::Object("", (double)0, AMF::AMF0_NULL)); //null - command info amfReply.addContent(AMF::Object("", (double)1)); //stream ID - we use 1 sendCommand(amfReply, messageType, streamId); Socket.Send(RTMPStream::SendUSR(0, 1)); //send UCM StreamBegin (0), stream 1 return; } //createStream if ((amfData.getContentP(0)->StrValue() == "closeStream") || (amfData.getContentP(0)->StrValue() == "deleteStream")){ if (ss.connected()){ ss.close(); } return; } if ((amfData.getContentP(0)->StrValue() == "FCUnpublish") || (amfData.getContentP(0)->StrValue() == "releaseStream")){ // ignored return; } if ((amfData.getContentP(0)->StrValue() == "FCPublish")){ //send a FCPublic reply AMF::Object amfReply("container", AMF::AMF0_DDV_CONTAINER); amfReply.addContent(AMF::Object("", "onFCPublish")); //status reply amfReply.addContent(AMF::Object("", 0, AMF::AMF0_NUMBER)); //same transaction ID amfReply.addContent(AMF::Object("", (double)0, AMF::AMF0_NULL)); //null - command info amfReply.addContent(AMF::Object("")); //info amfReply.getContentP(3)->addContent(AMF::Object("code", "NetStream.Publish.Start")); amfReply.getContentP(3)->addContent(AMF::Object("description", "Please followup with publish command...")); sendCommand(amfReply, messageType, streamId); return; } //FCPublish if (amfData.getContentP(0)->StrValue() == "releaseStream"){ //send a _result reply AMF::Object amfReply("container", AMF::AMF0_DDV_CONTAINER); amfReply.addContent(AMF::Object("", "_result")); //result success amfReply.addContent(amfData.getContent(1)); //same transaction ID amfReply.addContent(AMF::Object("", (double)0, AMF::AMF0_NULL)); //null - command info amfReply.addContent(AMF::Object("", AMF::AMF0_UNDEFINED)); //stream ID? sendCommand(amfReply, messageType, streamId); return; }//releaseStream if ((amfData.getContentP(0)->StrValue() == "getStreamLength") || (amfData.getContentP(0)->StrValue() == "getMovLen")){ //send a _result reply AMF::Object amfReply("container", AMF::AMF0_DDV_CONTAINER); amfReply.addContent(AMF::Object("", "_result")); //result success amfReply.addContent(amfData.getContent(1)); //same transaction ID amfReply.addContent(AMF::Object("", (double)0, AMF::AMF0_NULL)); //null - command info amfReply.addContent(AMF::Object("", (double)0)); //zero length sendCommand(amfReply, messageType, streamId); return; } //getStreamLength if ((amfData.getContentP(0)->StrValue() == "publish")){ if (amfData.getContentP(3)){ streamName = amfData.getContentP(3)->StrValue(); /// \todo implement push for MistPlayer or restrict and change to getLive ss = Util::Stream::getStream(streamName); if ( !ss.connected()){ #if DEBUG >= 1 fprintf(stderr, "Could not connect to server!\n"); #endif Socket.close(); //disconnect user return; } DTSC::Stream Strm; Strm.waitForMeta(ss); ss.Send("P "); ss.Send(Socket.getHost().c_str()); ss.Send(" "); ss.Send(app_name); ss.SendNow("\n"); streamReset = true; noStats = true; } //send a _result reply AMF::Object amfReply("container", AMF::AMF0_DDV_CONTAINER); amfReply.addContent(AMF::Object("", "_result")); //result success amfReply.addContent(amfData.getContent(1)); //same transaction ID amfReply.addContent(AMF::Object("", (double)0, AMF::AMF0_NULL)); //null - command info amfReply.addContent(AMF::Object("", 1, AMF::AMF0_BOOL)); //publish success? sendCommand(amfReply, messageType, streamId); Socket.Send(RTMPStream::SendUSR(0, 1)); //send UCM StreamBegin (0), stream 1 //send a status reply amfReply = AMF::Object("container", AMF::AMF0_DDV_CONTAINER); amfReply.addContent(AMF::Object("", "onStatus")); //status reply amfReply.addContent(AMF::Object("", 0, AMF::AMF0_NUMBER)); //same transaction ID amfReply.addContent(AMF::Object("", (double)0, AMF::AMF0_NULL)); //null - command info amfReply.addContent(AMF::Object("")); //info amfReply.getContentP(3)->addContent(AMF::Object("level", "status")); amfReply.getContentP(3)->addContent(AMF::Object("code", "NetStream.Publish.Start")); amfReply.getContentP(3)->addContent(AMF::Object("description", "Stream is now published!")); amfReply.getContentP(3)->addContent(AMF::Object("clientid", (double)1337)); sendCommand(amfReply, messageType, streamId); return; } //getStreamLength if (amfData.getContentP(0)->StrValue() == "checkBandwidth"){ //send a _result reply AMF::Object amfReply("container", AMF::AMF0_DDV_CONTAINER); amfReply.addContent(AMF::Object("", "_result")); //result success amfReply.addContent(amfData.getContent(1)); //same transaction ID amfReply.addContent(AMF::Object("", (double)0, AMF::AMF0_NULL)); //null - command info amfReply.addContent(AMF::Object("", (double)0, AMF::AMF0_NULL)); //null - command info sendCommand(amfReply, messageType, streamId); return; } //checkBandwidth if ((amfData.getContentP(0)->StrValue() == "play") || (amfData.getContentP(0)->StrValue() == "play2")){ //set reply number and stream name, actual reply is sent up in the ss.spool() handler playTransaction = amfData.getContentP(1)->NumValue(); playMessageType = messageType; playStreamId = streamId; streamName = amfData.getContentP(3)->StrValue(); Connector_RTMP::ready4data = true; //start sending video data! return; } //play if ((amfData.getContentP(0)->StrValue() == "seek")){ //set reply number and stream name, actual reply is sent up in the ss.spool() handler playTransaction = amfData.getContentP(1)->NumValue(); playMessageType = messageType; playStreamId = streamId; streamInited = false; AMF::Object amfReply("container", AMF::AMF0_DDV_CONTAINER); amfReply.addContent(AMF::Object("", "onStatus")); //status reply amfReply.addContent(amfData.getContent(1)); //same transaction ID amfReply.addContent(AMF::Object("", (double)0, AMF::AMF0_NULL)); //null - command info amfReply.addContent(AMF::Object("")); //info amfReply.getContentP(3)->addContent(AMF::Object("level", "status")); amfReply.getContentP(3)->addContent(AMF::Object("code", "NetStream.Seek.Notify")); amfReply.getContentP(3)->addContent(AMF::Object("description", "Seeking to the specified time")); amfReply.getContentP(3)->addContent(AMF::Object("details", "DDV")); amfReply.getContentP(3)->addContent(AMF::Object("clientid", (double)1337)); sendCommand(amfReply, playMessageType, playStreamId); ss.Send("s "); ss.Send(JSON::Value((long long int)amfData.getContentP(3)->NumValue()).asString().c_str()); ss.SendNow("\n"); return; } //seek if ((amfData.getContentP(0)->StrValue() == "pauseRaw") || (amfData.getContentP(0)->StrValue() == "pause")){ if (amfData.getContentP(3)->NumValue()){ ss.Send("q\n"); //quit playing //send a status reply AMF::Object amfReply("container", AMF::AMF0_DDV_CONTAINER); amfReply.addContent(AMF::Object("", "onStatus")); //status reply amfReply.addContent(amfData.getContent(1)); //same transaction ID amfReply.addContent(AMF::Object("", (double)0, AMF::AMF0_NULL)); //null - command info amfReply.addContent(AMF::Object("")); //info amfReply.getContentP(3)->addContent(AMF::Object("level", "status")); amfReply.getContentP(3)->addContent(AMF::Object("code", "NetStream.Pause.Notify")); amfReply.getContentP(3)->addContent(AMF::Object("description", "Pausing playback")); amfReply.getContentP(3)->addContent(AMF::Object("details", "DDV")); amfReply.getContentP(3)->addContent(AMF::Object("clientid", (double)1337)); sendCommand(amfReply, playMessageType, playStreamId); }else{ ss.SendNow("p\n"); //start playing //send a status reply AMF::Object amfReply("container", AMF::AMF0_DDV_CONTAINER); amfReply.addContent(AMF::Object("", "onStatus")); //status reply amfReply.addContent(amfData.getContent(1)); //same transaction ID amfReply.addContent(AMF::Object("", (double)0, AMF::AMF0_NULL)); //null - command info amfReply.addContent(AMF::Object("")); //info amfReply.getContentP(3)->addContent(AMF::Object("level", "status")); amfReply.getContentP(3)->addContent(AMF::Object("code", "NetStream.Unpause.Notify")); amfReply.getContentP(3)->addContent(AMF::Object("description", "Resuming playback")); amfReply.getContentP(3)->addContent(AMF::Object("details", "DDV")); amfReply.getContentP(3)->addContent(AMF::Object("clientid", (double)1337)); sendCommand(amfReply, playMessageType, playStreamId); } return; } //seek #if DEBUG >= 2 fprintf(stderr, "AMF0 command not processed!\n%s\n", amfData.Print().c_str()); #endif } //parseAMFCommand
namespace Connector_RTMP { //for connection to server bool ready4data = false; ///< Indicates whether streaming can start. bool inited = false; ///< Indicates whether we are ready to connect to the Buffer. bool noStats = false; ///< Indicates when no stats should be sent anymore. Used in push mode. bool stopParsing = false; ///< Indicates when to stop all parsing. bool streamReset = false; //for reply to play command int playTransaction = -1;///<The transaction number of the reply. int playStreamId = -1;///<The stream id of the reply. int playMessageType = -1;///<The message type of the reply. //generic state keeping bool streamInited = false;///<Indicates whether init data for audio/video was sent. int videoID = -1; int audioID = -1; Socket::Connection Socket; ///< A copy of the user socket to allow helper functions to directly send data. Socket::Connection ss; ///< Socket connected to server. std::string streamName; ///< Stream that will be opened. std::string app_name; ///< Name of the application that was opened ///\brief Sends a RTMP command either in AMF or AMF3 mode. ///\param amfReply The data to be sent over RTMP. ///\param messageType The type of message. ///\param streamId The ID of the AMF stream. void sendCommand(AMF::Object & amfReply, int messageType, int streamId){ #if DEBUG >= 8 std::cerr << amfReply.Print() << std::endl; #endif if (messageType == 17){ Socket.SendNow(RTMPStream::SendChunk(3, messageType, streamId, (char)0 + amfReply.Pack())); }else{ Socket.SendNow(RTMPStream::SendChunk(3, messageType, streamId, amfReply.Pack())); } } //sendCommand ///\brief Parses a single AMF command message, and sends a direct response through sendCommand(). ///\param amfData The received request. ///\param messageType The type of message. ///\param streamId The ID of the AMF stream. void parseAMFCommand(AMF::Object & amfData, int messageType, int streamId){ #if DEBUG >= 5 fprintf(stderr, "Received command: %s\n", amfData.Print().c_str()); #endif #if DEBUG >= 8 fprintf(stderr, "AMF0 command: %s\n", amfData.getContentP(0)->StrValue().c_str()); #endif if (amfData.getContentP(0)->StrValue() == "connect"){ double objencoding = 0; if (amfData.getContentP(2)->getContentP("objectEncoding")){ objencoding = amfData.getContentP(2)->getContentP("objectEncoding")->NumValue(); } #if DEBUG >= 6 int tmpint; if (amfData.getContentP(2)->getContentP("videoCodecs")){ tmpint = (int)amfData.getContentP(2)->getContentP("videoCodecs")->NumValue(); if (tmpint & 0x04){ fprintf(stderr, "Sorensen video support detected\n"); } if (tmpint & 0x80){ fprintf(stderr, "H264 video support detected\n"); } } if (amfData.getContentP(2)->getContentP("audioCodecs")){ tmpint = (int)amfData.getContentP(2)->getContentP("audioCodecs")->NumValue(); if (tmpint & 0x04){ fprintf(stderr, "MP3 audio support detected\n"); } if (tmpint & 0x400){ fprintf(stderr, "AAC audio support detected\n"); } } #endif app_name = amfData.getContentP(2)->getContentP("tcUrl")->StrValue(); app_name = app_name.substr(app_name.find('/', 7) + 1); RTMPStream::chunk_snd_max = 4096; Socket.Send(RTMPStream::SendCTL(1, RTMPStream::chunk_snd_max)); //send chunk size max (msg 1) Socket.Send(RTMPStream::SendCTL(5, RTMPStream::snd_window_size)); //send window acknowledgement size (msg 5) Socket.Send(RTMPStream::SendCTL(6, RTMPStream::rec_window_size)); //send rec window acknowledgement size (msg 6) Socket.Send(RTMPStream::SendUSR(0, 1)); //send UCM StreamBegin (0), stream 1 //send a _result reply AMF::Object amfReply("container", AMF::AMF0_DDV_CONTAINER); amfReply.addContent(AMF::Object("", "_result")); //result success amfReply.addContent(amfData.getContent(1)); //same transaction ID amfReply.addContent(AMF::Object("")); //server properties amfReply.getContentP(2)->addContent(AMF::Object("fmsVer", "FMS/3,5,5,2004")); amfReply.getContentP(2)->addContent(AMF::Object("capabilities", (double)31)); amfReply.getContentP(2)->addContent(AMF::Object("mode", (double)1)); amfReply.addContent(AMF::Object("")); //info amfReply.getContentP(3)->addContent(AMF::Object("level", "status")); amfReply.getContentP(3)->addContent(AMF::Object("code", "NetConnection.Connect.Success")); amfReply.getContentP(3)->addContent(AMF::Object("description", "Connection succeeded.")); amfReply.getContentP(3)->addContent(AMF::Object("clientid", 1337)); amfReply.getContentP(3)->addContent(AMF::Object("objectEncoding", objencoding)); //amfReply.getContentP(3)->addContent(AMF::Object("data", AMF::AMF0_ECMA_ARRAY)); //amfReply.getContentP(3)->getContentP(4)->addContent(AMF::Object("version", "3,5,4,1004")); sendCommand(amfReply, messageType, streamId); //send onBWDone packet - no clue what it is, but real server sends it... //amfReply = AMF::Object("container", AMF::AMF0_DDV_CONTAINER); //amfReply.addContent(AMF::Object("", "onBWDone"));//result //amfReply.addContent(amfData.getContent(1));//same transaction ID //amfReply.addContent(AMF::Object("", (double)0, AMF::AMF0_NULL));//null //sendCommand(amfReply, messageType, streamId); return; } //connect if (amfData.getContentP(0)->StrValue() == "createStream"){ //send a _result reply AMF::Object amfReply("container", AMF::AMF0_DDV_CONTAINER); amfReply.addContent(AMF::Object("", "_result")); //result success amfReply.addContent(amfData.getContent(1)); //same transaction ID amfReply.addContent(AMF::Object("", (double)0, AMF::AMF0_NULL)); //null - command info amfReply.addContent(AMF::Object("", (double)1)); //stream ID - we use 1 sendCommand(amfReply, messageType, streamId); Socket.Send(RTMPStream::SendUSR(0, 1)); //send UCM StreamBegin (0), stream 1 return; } //createStream if ((amfData.getContentP(0)->StrValue() == "closeStream") || (amfData.getContentP(0)->StrValue() == "deleteStream")){ if (ss.connected()){ ss.close(); } return; } if ((amfData.getContentP(0)->StrValue() == "FCUnpublish") || (amfData.getContentP(0)->StrValue() == "releaseStream")){ // ignored return; } if ((amfData.getContentP(0)->StrValue() == "FCPublish")){ //send a FCPublic reply AMF::Object amfReply("container", AMF::AMF0_DDV_CONTAINER); amfReply.addContent(AMF::Object("", "onFCPublish")); //status reply amfReply.addContent(AMF::Object("", 0, AMF::AMF0_NUMBER)); //same transaction ID amfReply.addContent(AMF::Object("", (double)0, AMF::AMF0_NULL)); //null - command info amfReply.addContent(AMF::Object("")); //info amfReply.getContentP(3)->addContent(AMF::Object("code", "NetStream.Publish.Start")); amfReply.getContentP(3)->addContent(AMF::Object("description", "Please followup with publish command...")); sendCommand(amfReply, messageType, streamId); return; } //FCPublish if (amfData.getContentP(0)->StrValue() == "releaseStream"){ //send a _result reply AMF::Object amfReply("container", AMF::AMF0_DDV_CONTAINER); amfReply.addContent(AMF::Object("", "_result")); //result success amfReply.addContent(amfData.getContent(1)); //same transaction ID amfReply.addContent(AMF::Object("", (double)0, AMF::AMF0_NULL)); //null - command info amfReply.addContent(AMF::Object("", AMF::AMF0_UNDEFINED)); //stream ID? sendCommand(amfReply, messageType, streamId); return; }//releaseStream if ((amfData.getContentP(0)->StrValue() == "getStreamLength") || (amfData.getContentP(0)->StrValue() == "getMovLen")){ //send a _result reply AMF::Object amfReply("container", AMF::AMF0_DDV_CONTAINER); amfReply.addContent(AMF::Object("", "_result")); //result success amfReply.addContent(amfData.getContent(1)); //same transaction ID amfReply.addContent(AMF::Object("", (double)0, AMF::AMF0_NULL)); //null - command info amfReply.addContent(AMF::Object("", (double)0)); //zero length sendCommand(amfReply, messageType, streamId); return; } //getStreamLength if ((amfData.getContentP(0)->StrValue() == "publish")){ if (amfData.getContentP(3)){ streamName = amfData.getContentP(3)->StrValue(); /// \todo implement push for MistPlayer or restrict and change to getLive ss = Util::Stream::getStream(streamName); if ( !ss.connected()){ #if DEBUG >= 1 fprintf(stderr, "Could not connect to server!\n"); #endif Socket.close(); //disconnect user return; } DTSC::Stream Strm; Strm.waitForMeta(ss); ss.Send("P "); ss.Send(Socket.getHost().c_str()); ss.Send(" "); ss.Send(app_name); ss.SendNow("\n"); streamReset = true; noStats = true; } //send a _result reply AMF::Object amfReply("container", AMF::AMF0_DDV_CONTAINER); amfReply.addContent(AMF::Object("", "_result")); //result success amfReply.addContent(amfData.getContent(1)); //same transaction ID amfReply.addContent(AMF::Object("", (double)0, AMF::AMF0_NULL)); //null - command info amfReply.addContent(AMF::Object("", 1, AMF::AMF0_BOOL)); //publish success? sendCommand(amfReply, messageType, streamId); Socket.Send(RTMPStream::SendUSR(0, 1)); //send UCM StreamBegin (0), stream 1 //send a status reply amfReply = AMF::Object("container", AMF::AMF0_DDV_CONTAINER); amfReply.addContent(AMF::Object("", "onStatus")); //status reply amfReply.addContent(AMF::Object("", 0, AMF::AMF0_NUMBER)); //same transaction ID amfReply.addContent(AMF::Object("", (double)0, AMF::AMF0_NULL)); //null - command info amfReply.addContent(AMF::Object("")); //info amfReply.getContentP(3)->addContent(AMF::Object("level", "status")); amfReply.getContentP(3)->addContent(AMF::Object("code", "NetStream.Publish.Start")); amfReply.getContentP(3)->addContent(AMF::Object("description", "Stream is now published!")); amfReply.getContentP(3)->addContent(AMF::Object("clientid", (double)1337)); sendCommand(amfReply, messageType, streamId); return; } //getStreamLength if (amfData.getContentP(0)->StrValue() == "checkBandwidth"){ //send a _result reply AMF::Object amfReply("container", AMF::AMF0_DDV_CONTAINER); amfReply.addContent(AMF::Object("", "_result")); //result success amfReply.addContent(amfData.getContent(1)); //same transaction ID amfReply.addContent(AMF::Object("", (double)0, AMF::AMF0_NULL)); //null - command info amfReply.addContent(AMF::Object("", (double)0, AMF::AMF0_NULL)); //null - command info sendCommand(amfReply, messageType, streamId); return; } //checkBandwidth if ((amfData.getContentP(0)->StrValue() == "play") || (amfData.getContentP(0)->StrValue() == "play2")){ //set reply number and stream name, actual reply is sent up in the ss.spool() handler playTransaction = amfData.getContentP(1)->NumValue(); playMessageType = messageType; playStreamId = streamId; streamName = amfData.getContentP(3)->StrValue(); Connector_RTMP::ready4data = true; //start sending video data! return; } //play if ((amfData.getContentP(0)->StrValue() == "seek")){ //set reply number and stream name, actual reply is sent up in the ss.spool() handler playTransaction = amfData.getContentP(1)->NumValue(); playMessageType = messageType; playStreamId = streamId; streamInited = false; AMF::Object amfReply("container", AMF::AMF0_DDV_CONTAINER); amfReply.addContent(AMF::Object("", "onStatus")); //status reply amfReply.addContent(amfData.getContent(1)); //same transaction ID amfReply.addContent(AMF::Object("", (double)0, AMF::AMF0_NULL)); //null - command info amfReply.addContent(AMF::Object("")); //info amfReply.getContentP(3)->addContent(AMF::Object("level", "status")); amfReply.getContentP(3)->addContent(AMF::Object("code", "NetStream.Seek.Notify")); amfReply.getContentP(3)->addContent(AMF::Object("description", "Seeking to the specified time")); amfReply.getContentP(3)->addContent(AMF::Object("details", "DDV")); amfReply.getContentP(3)->addContent(AMF::Object("clientid", (double)1337)); sendCommand(amfReply, playMessageType, playStreamId); ss.Send("s "); ss.Send(JSON::Value((long long int)amfData.getContentP(3)->NumValue()).asString().c_str()); ss.SendNow("\n"); return; } //seek if ((amfData.getContentP(0)->StrValue() == "pauseRaw") || (amfData.getContentP(0)->StrValue() == "pause")){ if (amfData.getContentP(3)->NumValue()){ ss.Send("q\n"); //quit playing //send a status reply AMF::Object amfReply("container", AMF::AMF0_DDV_CONTAINER); amfReply.addContent(AMF::Object("", "onStatus")); //status reply amfReply.addContent(amfData.getContent(1)); //same transaction ID amfReply.addContent(AMF::Object("", (double)0, AMF::AMF0_NULL)); //null - command info amfReply.addContent(AMF::Object("")); //info amfReply.getContentP(3)->addContent(AMF::Object("level", "status")); amfReply.getContentP(3)->addContent(AMF::Object("code", "NetStream.Pause.Notify")); amfReply.getContentP(3)->addContent(AMF::Object("description", "Pausing playback")); amfReply.getContentP(3)->addContent(AMF::Object("details", "DDV")); amfReply.getContentP(3)->addContent(AMF::Object("clientid", (double)1337)); sendCommand(amfReply, playMessageType, playStreamId); }else{ ss.SendNow("p\n"); //start playing //send a status reply AMF::Object amfReply("container", AMF::AMF0_DDV_CONTAINER); amfReply.addContent(AMF::Object("", "onStatus")); //status reply amfReply.addContent(amfData.getContent(1)); //same transaction ID amfReply.addContent(AMF::Object("", (double)0, AMF::AMF0_NULL)); //null - command info amfReply.addContent(AMF::Object("")); //info amfReply.getContentP(3)->addContent(AMF::Object("level", "status")); amfReply.getContentP(3)->addContent(AMF::Object("code", "NetStream.Unpause.Notify")); amfReply.getContentP(3)->addContent(AMF::Object("description", "Resuming playback")); amfReply.getContentP(3)->addContent(AMF::Object("details", "DDV")); amfReply.getContentP(3)->addContent(AMF::Object("clientid", (double)1337)); sendCommand(amfReply, playMessageType, playStreamId); } return; } //seek #if DEBUG >= 2 fprintf(stderr, "AMF0 command not processed!\n%s\n", amfData.Print().c_str()); #endif } //parseAMFCommand ///\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 ///\brief Main function for the RTMP Connector ///\param conn A socket describing the connection the client. ///\return The exit code of the connector. int rtmpConnector(Socket::Connection conn){ Socket = conn; Socket.setBlocking(false); FLV::Tag tag, init_tag; DTSC::Stream Strm; while ( !Socket.Received().available(1537) && Socket.connected()){ Socket.spool(); Util::sleep(5); } RTMPStream::handshake_in = Socket.Received().remove(1537); RTMPStream::rec_cnt += 1537; if (RTMPStream::doHandshake()){ Socket.SendNow(RTMPStream::handshake_out); while ( !Socket.Received().available(1536) && Socket.connected()){ Socket.spool(); Util::sleep(5); } Socket.Received().remove(1536); RTMPStream::rec_cnt += 1536; #if DEBUG >= 5 fprintf(stderr, "Handshake succcess!\n"); #endif }else{ #if DEBUG >= 5 fprintf(stderr, "Handshake fail!\n"); #endif return 0; } unsigned int lastStats = 0; bool firsttime = true; while (Socket.connected()){ if (Socket.spool() || firsttime){ parseChunk(Socket.Received()); firsttime = false; }else{ Util::sleep(1); //sleep 1ms to prevent high CPU usage } if (ready4data){ if ( !inited){ //we are ready, connect the socket! ss = Util::Stream::getStream(streamName); if ( !ss.connected()){ #if DEBUG >= 1 fprintf(stderr, "Could not connect to server!\n"); #endif Socket.close(); //disconnect user break; } ss.setBlocking(false); Strm.waitForMeta(ss); //find first audio and video tracks for (JSON::ObjIter objIt = Strm.metadata["tracks"].ObjBegin(); objIt != Strm.metadata["tracks"].ObjEnd(); objIt++){ if (videoID == -1 && objIt->second["type"].asStringRef() == "video"){ videoID = objIt->second["trackid"].asInt(); } if (audioID == -1 && objIt->second["type"].asStringRef() == "audio"){ audioID = objIt->second["trackid"].asInt(); } } //select the tracks and play std::stringstream cmd; cmd << "t"; if (videoID != -1){ cmd << " " << videoID; } if (audioID != -1){ cmd << " " << audioID; } cmd << "\np\n"; ss.SendNow(cmd.str().c_str()); inited = true; } if (inited && !noStats){ long long int now = Util::epoch(); if (now != lastStats){ lastStats = now; ss.SendNow(Socket.getStats("RTMP")); } } if (ss.spool()){ while (Strm.parsePacket(ss.Received())){ if (playTransaction != -1){ //send a status reply AMF::Object amfreply("container", AMF::AMF0_DDV_CONTAINER); amfreply.addContent(AMF::Object("", "onStatus")); //status reply amfreply.addContent(AMF::Object("", (double)playTransaction)); //same transaction ID amfreply.addContent(AMF::Object("", (double)0, AMF::AMF0_NULL)); //null - command info amfreply.addContent(AMF::Object("")); //info amfreply.getContentP(3)->addContent(AMF::Object("level", "status")); amfreply.getContentP(3)->addContent(AMF::Object("code", "NetStream.Play.Reset")); amfreply.getContentP(3)->addContent(AMF::Object("description", "Playing and resetting...")); amfreply.getContentP(3)->addContent(AMF::Object("details", "DDV")); amfreply.getContentP(3)->addContent(AMF::Object("clientid", (double)1337)); sendCommand(amfreply, playMessageType, playStreamId); //send streamisrecorded if stream, well, is recorded. if (Strm.metadata.isMember("length") && Strm.metadata["length"].asInt() > 0){ Socket.Send(RTMPStream::SendUSR(4, 1)); //send UCM StreamIsRecorded (4), stream 1 } //send streambegin Socket.Send(RTMPStream::SendUSR(0, 1)); //send UCM StreamBegin (0), stream 1 //and more reply amfreply = AMF::Object("container", AMF::AMF0_DDV_CONTAINER); amfreply.addContent(AMF::Object("", "onStatus")); //status reply amfreply.addContent(AMF::Object("", (double)playTransaction)); //same transaction ID amfreply.addContent(AMF::Object("", (double)0, AMF::AMF0_NULL)); //null - command info amfreply.addContent(AMF::Object("")); //info amfreply.getContentP(3)->addContent(AMF::Object("level", "status")); amfreply.getContentP(3)->addContent(AMF::Object("code", "NetStream.Play.Start")); amfreply.getContentP(3)->addContent(AMF::Object("description", "Playing!")); amfreply.getContentP(3)->addContent(AMF::Object("details", "DDV")); amfreply.getContentP(3)->addContent(AMF::Object("clientid", (double)1337)); sendCommand(amfreply, playMessageType, playStreamId); RTMPStream::chunk_snd_max = 102400; //100KiB Socket.Send(RTMPStream::SendCTL(1, RTMPStream::chunk_snd_max)); //send chunk size max (msg 1) //send dunno? Socket.Send(RTMPStream::SendUSR(32, 1)); //send UCM no clue?, stream 1 playTransaction = -1; } //sent init data if needed if ( !streamInited){ init_tag.DTSCMetaInit(Strm, Strm.getTrackById(videoID), Strm.getTrackById(audioID)); Socket.SendNow(RTMPStream::SendMedia(init_tag)); if (audioID != -1 && Strm.getTrackById(audioID).isMember("init")){ init_tag.DTSCAudioInit(Strm.getTrackById(audioID)); Socket.SendNow(RTMPStream::SendMedia(init_tag)); } if (videoID != -1 && Strm.getTrackById(videoID).isMember("init")){ init_tag.DTSCVideoInit(Strm.getTrackById(videoID)); Socket.SendNow(RTMPStream::SendMedia(init_tag)); } streamInited = true; } //sent a tag tag.DTSCLoader(Strm); Socket.SendNow(RTMPStream::SendMedia(tag)); #if DEBUG >= 8 fprintf(stderr, "Sent tag to %i: [%u] %s\n", Socket.getSocket(), tag.tagTime(), tag.tagType().c_str()); #endif } } } } Socket.close(); ss.SendNow(Socket.getStats("RTMP").c_str()); ss.close(); return 0; } //Connector_RTMP }
/// After receiving a header with this object, this function call will: /// - Forward the headers to the 'to' Socket::Connection. /// - Retrieve all the body from the 'from' Socket::Connection. /// - Forward those contents as-is to the 'to' Socket::Connection. /// It blocks until completed or either of the connections reaches an error state. void HTTP::Parser::Proxy(Socket::Connection & from, Socket::Connection & to) { SendResponse(url, method, to); if (getChunks) { unsigned int proxyingChunk = 0; while (to.connected() && from.connected()) { if ((from.Received().size() && (from.Received().size() > 1 || *(from.Received().get().rbegin()) == '\n')) || from.spool()) { if (proxyingChunk) { while (proxyingChunk && from.Received().size()) { unsigned int toappend = from.Received().get().size(); if (toappend > proxyingChunk) { toappend = proxyingChunk; to.SendNow(from.Received().get().c_str(), toappend); from.Received().get().erase(0, toappend); } else { to.SendNow(from.Received().get()); from.Received().get().clear(); } proxyingChunk -= toappend; } } else { //Make sure the received data ends in a newline (\n). if (*(from.Received().get().rbegin()) != '\n') { if (from.Received().size() > 1) { //make a copy of the first part std::string tmp = from.Received().get(); //clear the first part, wiping it from the partlist from.Received().get().clear(); from.Received().size(); //take the now first (was second) part, insert the stored part in front of it from.Received().get().insert(0, tmp); } else { Util::sleep(100); } if (*(from.Received().get().rbegin()) != '\n') { continue; } } //forward the size and any empty lines to.SendNow(from.Received().get()); std::string tmpA = from.Received().get().substr(0, from.Received().get().size() - 1); while (tmpA.find('\r') != std::string::npos) { tmpA.erase(tmpA.find('\r')); } unsigned int chunkLen = 0; if (!tmpA.empty()) { for (unsigned int i = 0; i < tmpA.size(); ++i) { chunkLen = (chunkLen << 4) | unhex(tmpA[i]); } if (chunkLen == 0) { getChunks = false; to.SendNow("\r\n", 2); return; } proxyingChunk = chunkLen; } from.Received().get().clear(); } } else { Util::sleep(100); } } } else { unsigned int bodyLen = length; while (bodyLen > 0 && to.connected() && from.connected()) { if (from.Received().size() || from.spool()) { if (from.Received().get().size() <= bodyLen) { to.SendNow(from.Received().get()); bodyLen -= from.Received().get().size(); from.Received().get().clear(); } else { to.SendNow(from.Received().get().c_str(), bodyLen); from.Received().get().erase(0, bodyLen); bodyLen = 0; } } else { Util::sleep(100); } } } }
///\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 Contains the main code for the RAW connector. /// ///Expects a single commandline argument telling it which stream to connect to, ///then outputs the raw stream to stdout. int main(int argc, char ** argv){ Util::Config conf(argv[0], PACKAGE_VERSION); JSON::Value capa; conf.addBasicConnectorOptions(capa); conf.addOption("stream_name", JSON::fromString("{\"arg_num\":1, \"help\":\"Name of the stream to write to stdout.\"}")); conf.parseArgs(argc, argv); if (conf.getBool("json")){ std::cout << "null" << std::endl; return -1; } //connect to the proper stream Socket::Connection S = Util::Stream::getStream(conf.getString("stream_name")); S.setBlocking(false); if ( !S.connected()){ std::cout << "Could not open stream " << conf.getString("stream_name") << std::endl; return 1; } long long int lastStats = 0; long long int started = Util::epoch(); while (std::cout.good()){ if (S.spool()){ while (S.Received().size()){ std::cout.write(S.Received().get().c_str(), S.Received().get().size()); S.Received().get().clear(); } }else{ Util::sleep(10); //sleep 10ms if no data } unsigned int now = Util::epoch(); if (now != lastStats){ lastStats = now; std::stringstream st; st << "S localhost RAW " << (Util::epoch() - started) << " " << S.dataDown() << " " << S.dataUp() << "\n"; S.SendNow(st.str().c_str()); } } std::stringstream st; st << "S localhost RAW " << (Util::epoch() - started) << " " << S.dataDown() << " " << S.dataUp() << "\n"; S.SendNow(st.str().c_str()); S.close(); return 0; }