/// \file Connector_RTMP/main.cpp /// Contains the main code for the RTMP Connector #include #include #include #include #include #include #include #include #include #include #include "../util/socket.h" #include "../util/flv_tag.h" #include "../util/amf.h" #include "../util/rtmpchunks.h" /// Holds all functions and data unique to the RTMP Connector namespace Connector_RTMP{ //for connection to server bool ready4data = false; ///< Set to true when streaming starts. bool inited = false; ///< Set to true when ready to connect to Buffer. bool nostats = false; ///< Set to true if no stats should be sent anymore (push mode). bool stopparsing = false; ///< Set to true when all parsing needs to be cancelled. Socket::Connection Socket; ///< Socket connected to user Socket::Connection SS; ///< Socket connected to server std::string streamname; ///< Stream that will be opened void parseChunk(std::string & buffer);///< Parses a single RTMP chunk. void sendCommand(AMF::Object & amfreply, int messagetype, int stream_id);///< Sends a RTMP command either in AMF or AMF3 mode. void parseAMFCommand(AMF::Object & amfdata, int messagetype, int stream_id);///< Parses a single AMF command message. int Connector_RTMP(Socket::Connection conn); };//Connector_RTMP namespace; /// Main Connector_RTMP function int Connector_RTMP::Connector_RTMP(Socket::Connection conn){ Socket = conn; FLV::Tag tag, init_tag; DTSC::Stream Strm; bool stream_inited = false;//true if init data for audio/video was sent //first timestamp set RTMPStream::firsttime = RTMPStream::getNowMS(); while (Socket.connected() && (RTMPStream::handshake_in.size() < 1537)){ Socket.read(RTMPStream::handshake_in); } RTMPStream::rec_cnt += 1537; if (RTMPStream::doHandshake()){ Socket.write(RTMPStream::handshake_out); Socket.read((char*)RTMPStream::handshake_in.c_str(), 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; while (Socket.connected()){ sleep(10000);//sleep 10ms to prevent high CPU usage if (Socket.spool()){ parseChunk(Socket.Received()); } if (ready4data){ if (!inited){ //we are ready, connect the socket! SS = Socket::getStream(streamname); if (!SS.connected()){ #if DEBUG >= 1 fprintf(stderr, "Could not connect to server!\n"); #endif Socket.close();//disconnect user break; } #if DEBUG >= 3 fprintf(stderr, "Everything connected, starting to send video data...\n"); #endif inited = true; } if (inited && !nostats){ unsigned int now = time(0); if (now != lastStats){ lastStats = now; std::string stat = "S "+Socket.getStats("RTMP"); SS.write(stat); } } if (SS.spool()){ if (Strm.parsePacket(SS.Received())){ //sent init data if needed if (!stream_inited){ if (Strm.metadata.getContentP("audio") && Strm.metadata.getContentP("audio")->getContentP("init")){ init_tag.DTSCAudioInit(Strm); Socket.write(RTMPStream::SendMedia(init_tag)); } if (Strm.metadata.getContentP("video") && Strm.metadata.getContentP("video")->getContentP("init")){ init_tag.DTSCVideoInit(Strm); Socket.write(RTMPStream::SendMedia(init_tag)); } stream_inited = true; } //sent a tag tag.DTSCLoader(Strm); Socket.write(RTMPStream::SendMedia(tag)); #if DEBUG >= 8 fprintf(stderr, "Sent tag to %i: [%u] %s\n", Socket.getSocket(), tag.tagTime(), tag.tagType().c_str()); #endif } } } } SS.close(); Socket.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 /// Tries to get and parse one RTMP chunk at a time. void Connector_RTMP::parseChunk(std::string & inbuffer){ //for DTSC conversion static DTSC::DTMI 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; 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(inbuffer)){ //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.write(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. This is an error.\n"); #endif break;//happens when connection breaks unexpectedly case 1://set chunk size RTMPStream::chunk_rec_max = ntohl(*(int*)next.data.c_str()); #if DEBUG >= 4 fprintf(stderr, "CTRL: Set chunk size: %i\n", RTMPStream::chunk_rec_max); #endif break; case 2://abort message - we ignore this one #if DEBUG >= 4 fprintf(stderr, "CTRL: Abort message\n"); #endif //4 bytes of stream id to drop break; case 3://ack #if DEBUG >= 4 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:{ #if DEBUG >= 4 short int ucmtype = ntohs(*(short int*)next.data.c_str()); fprintf(stderr, "CTRL: User control message %hi\n", ucmtype); #endif //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 } break; case 5://window size of other end #if DEBUG >= 4 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.write(RTMPStream::SendCTL(3, RTMPStream::rec_cnt));//send ack (msg 3) break; case 6: #if DEBUG >= 4 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.write(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()){ F.ChunkLoader(next); DTSC::DTMI pack_out = F.toDTSC(meta_out); if (!pack_out.isEmpty()){ if (!sending){ counter++; if (counter > 8){ sending = true; meta_out.Pack(true);//pack metadata meta_out.packed.replace(0, 4, DTSC::Magic_Header);//prepare proper header SS.write(meta_out.packed);//write header/metadata SS.write(prebuffer.str());//write buffer prebuffer.str("");//clear buffer SS.write(pack_out.Pack(true));//simply write }else{ prebuffer << pack_out.Pack(true);//buffer } }else{ SS.write(pack_out.Pack(true));//simple write } } }else{ #if DEBUG >= 4 fprintf(stderr, "Received useless media data\n"); #endif Socket.close(); } break; case 15: #if DEBUG >= 4 fprintf(stderr, "Received AFM3 data message\n"); #endif break; case 16: #if DEBUG >= 4 fprintf(stderr, "Received AFM3 shared object\n"); #endif break; case 17:{ #if DEBUG >= 4 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 >= 4 amf3data.Print(); #endif }else{ #if DEBUG >= 4 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 >= 4 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 >= 4 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 Connector_RTMP::stopparsing = true; break; } } }//parseChunk void Connector_RTMP::sendCommand(AMF::Object & amfreply, int messagetype, int stream_id){ if (messagetype == 17){ Socket.write(RTMPStream::SendChunk(3, messagetype, stream_id, (char)0+amfreply.Pack())); }else{ Socket.write(RTMPStream::SendChunk(3, messagetype, stream_id, amfreply.Pack())); } }//sendCommand void Connector_RTMP::parseAMFCommand(AMF::Object & amfdata, int messagetype, int stream_id){ bool parsed = false; #if DEBUG >= 4 amfdata.Print(); #endif if (amfdata.getContentP(0)->StrValue() == "connect"){ double objencoding = 0; if (amfdata.getContentP(2)->getContentP("objectEncoding")){ objencoding = amfdata.getContentP(2)->getContentP("objectEncoding")->NumValue(); } fprintf(stderr, "Object encoding set to %e\n", objencoding); #if DEBUG >= 4 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 RTMPStream::chunk_snd_max = 4096; Socket.write(RTMPStream::SendCTL(1, RTMPStream::chunk_snd_max));//send chunk size max (msg 1) Socket.write(RTMPStream::SendCTL(5, RTMPStream::snd_window_size));//send window acknowledgement size (msg 5) Socket.write(RTMPStream::SendCTL(6, RTMPStream::rec_window_size));//send rec window acknowledgement size (msg 6) Socket.write(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/3,0,1,123")); 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")); #if DEBUG >= 4 amfreply.Print(); #endif sendCommand(amfreply, messagetype, stream_id); //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, stream_id); parsed = true; }//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 #if DEBUG >= 4 amfreply.Print(); #endif sendCommand(amfreply, messagetype, stream_id); Socket.write(RTMPStream::SendUSR(0, 1));//send UCM StreamBegin (0), stream 1 parsed = true; }//createStream if ((amfdata.getContentP(0)->StrValue() == "closeStream") || (amfdata.getContentP(0)->StrValue() == "deleteStream")){ if (SS.connected()){SS.close();} } 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 #if DEBUG >= 4 amfreply.Print(); #endif sendCommand(amfreply, messagetype, stream_id); parsed = true; }//getStreamLength if ((amfdata.getContentP(0)->StrValue() == "publish")){ if (amfdata.getContentP(3)){ streamname = amfdata.getContentP(3)->StrValue(); SS = Socket::getStream(streamname); if (!SS.connected()){ #if DEBUG >= 1 fprintf(stderr, "Could not connect to server!\n"); #endif Socket.close();//disconnect user return; } SS.write("P "+Socket.getHost()+'\n'); nostats = true; #if DEBUG >= 4 fprintf(stderr, "Connected to buffer, starting to send data...\n"); #endif } //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? #if DEBUG >= 4 amfreply.Print(); #endif sendCommand(amfreply, messagetype, stream_id); Socket.write(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)); #if DEBUG >= 4 amfreply.Print(); #endif sendCommand(amfreply, messagetype, stream_id); parsed = true; }//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 #if DEBUG >= 4 amfreply.Print(); #endif sendCommand(amfreply, messagetype, stream_id); parsed = true; }//checkBandwidth if ((amfdata.getContentP(0)->StrValue() == "play") || (amfdata.getContentP(0)->StrValue() == "play2")){ //send streambegin streamname = amfdata.getContentP(3)->StrValue(); Socket.write(RTMPStream::SendUSR(0, 1));//send UCM StreamBegin (0), stream 1 //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.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)); #if DEBUG >= 4 amfreply.Print(); #endif sendCommand(amfreply, messagetype, stream_id); amfreply = AMF::Object("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.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)); #if DEBUG >= 4 amfreply.Print(); #endif sendCommand(amfreply, messagetype, stream_id); RTMPStream::chunk_snd_max = 102400;//100KiB Socket.write(RTMPStream::SendCTL(1, RTMPStream::chunk_snd_max));//send chunk size max (msg 1) Connector_RTMP::ready4data = true;//start sending video data! parsed = true; }//createStream #if DEBUG >= 3 fprintf(stderr, "AMF0 command: %s\n", amfdata.getContentP(0)->StrValue().c_str()); #endif if (!parsed){ #if DEBUG >= 2 fprintf(stderr, "AMF0 command not processed! :(\n"); #endif } }//parseAMFCommand // Load main server setup file, default port 1935, handler is Connector_RTMP::Connector_RTMP #define DEFAULT_PORT 1935 #define MAINHANDLER Connector_RTMP::Connector_RTMP #define CONFIGSECT RTMP #include "../util/server_setup.cpp"