#define DEBUG(args...) //debugging disabled //#define DEBUG(args...) fprintf(stderr, args) //debugging enabled #include #include #include #include #include //needed for select #include #include #include #include #include #include #include unsigned int getNowMS(){ timeval t; gettimeofday(&t, 0); return t.tv_sec + t.tv_usec/1000; } void hexdump(void *pAddressIn, long lSize) { char szBuf[100]; long lIndent = 1; long lOutLen, lIndex, lIndex2, lOutLen2; long lRelPos; struct { char *pData; unsigned long lSize; } buf; unsigned char *pTmp,ucTmp; unsigned char *pAddress = (unsigned char *)pAddressIn; buf.pData = (char *)pAddress; buf.lSize = lSize; while (buf.lSize > 0) { pTmp = (unsigned char *)buf.pData; lOutLen = (int)buf.lSize; if (lOutLen > 16) lOutLen = 16; // create a 64-character formatted output line: sprintf(szBuf, " > " " " " %08lX", pTmp-pAddress); lOutLen2 = lOutLen; for(lIndex = 1+lIndent, lIndex2 = 53-15+lIndent, lRelPos = 0; lOutLen2; lOutLen2--, lIndex += 2, lIndex2++ ) { ucTmp = *pTmp++; sprintf(szBuf + lIndex, "%02X ", (unsigned short)ucTmp); if(!isprint(ucTmp)) ucTmp = '.'; // nonprintable char szBuf[lIndex2] = ucTmp; if (!(++lRelPos & 3)) // extra blank after 4 bytes { lIndex++; szBuf[lIndex+2] = ' '; } } if (!(lRelPos & 3)) lIndex--; szBuf[lIndex ] = '<'; szBuf[lIndex+1] = ' '; DEBUG("%s\n", szBuf); buf.pData += lOutLen; buf.lSize -= lOutLen; } } //for connection to server #include "../sockets/SocketW.h" bool ready4data = false;//set to true when streaming starts bool inited = false; bool stopparsing = false; timeval lastrec; #include "../util/flv_sock.cpp" //FLV parsing with SocketW #include "rtsp.cpp" #include "rtp.h" void parse_ip(char* ip_addr, uint8_t * uitvoer) { int i = 0; int j = 0; int tempint = 0; while( ip_addr[i] != '\0' ) { if( ip_addr[i] != '.' ) { tempint = tempint * 10; tempint += ip_addr[i] - '0'; } else { uitvoer[j] = tempint; tempint = 0; j++; } i++; } uitvoer[j] = tempint; } int main(){ unsigned int ts; unsigned int fts = 0; unsigned int ftst; SWUnixSocket ss; fd_set pollset; struct timeval timeout; RTPSession rtp_connection; RTPSessionParams sessionparams; RTPUDPv4TransmissionParams transparams; //0 timeout - return immediately after select call timeout.tv_sec = 1; timeout.tv_usec = 0; FD_ZERO(&pollset);//clear the polling set FD_SET(0, &pollset);//add stdin to polling set DEBUG("Starting processing...\n"); while (!feof(stdin) && !stopparsing){ //select(1, &pollset, 0, 0, &timeout); //only parse input from stdin if available or not yet init'ed //FD_ISSET(0, &pollset) || //NOTE: Polling does not work? WHY?!? WHY DAMN IT?!? if (!ready4data && !stopparsing){ParseRTSPPacket();} if (ready4data && !stopparsing){ if (!inited){ //we are ready, connect the socket! if (!ss.connect("/tmp/shared_socket")){ DEBUG("Could not connect to server!\n"); return 0; } FLV_Readheader(ss);//read the header, we don't want it DEBUG("Header read, starting to send video data...\n"); sessionparams.SetOwnTimestampUnit(1.0);//1sample/second, dummydata, wordt toch elke keer per packet ingesteld. transparams.SetPortbase(serverport); rtp_connection.Create(sessionparams,&transparams); struct sockaddr_in i; int len; char * addr1; len = sizeof(i); if (getpeername( fileno(stdin), (sockaddr*)&i, (socklen_t*)&len ) == 0) { addr1 = (char *) inet_ntoa(i.sin_addr); DEBUG("%s\n", addr1 ); } else { DEBUG("Blaah\n"); } uint8_t clientip[4]; parse_ip(addr1,clientip); //TODO: clientip ophalen uit stdin-socket: zie http://www.mail-archive.com/plug@lists.q-linux.com/msg16482.html RTPIPv4Address addr(clientip,clientport); DEBUG("RTP Connected\n"); inited = true; } if (FLV_GetPacket(ss)){//able to read a full packet? //gooi de time uit de flv codec naar de juiste offsets voor deze kijker ts = FLVbuffer[7] * 256*256*256; ts += FLVbuffer[4] * 256*256; ts += FLVbuffer[5] * 256; ts += FLVbuffer[6]; if (ts != 0){ if (fts == 0){fts = ts;ftst = getNowMS();} ts -= fts; FLVbuffer[7] = ts / (256*256*256); FLVbuffer[4] = ts / (256*256); FLVbuffer[5] = ts / 256; FLVbuffer[6] = ts % 256; ts += ftst; }else{ ftst = getNowMS(); FLVbuffer[7] = ftst / (256*256*256); FLVbuffer[4] = ftst / (256*256); FLVbuffer[5] = ftst / 256; FLVbuffer[6] = ftst % 256; } if( FLVbuffer[0] != 0x12 ) {//Metadata direct filteren. if( FLVbuffer[0] == 0x08 ) { //Audio Packet // DEBUG("Audio Packet\n"); rtp_connection.SetTimestampUnit(1.0/11025);//11025 samples/second //Audiodata heeft na de flv-tag nog 2 UI8 aan beschrijvingen die NIET bij de AAC-data horen //NOTE:Same als hieronder, wat moeten we doen met init-data van aac? die info wordt nu omitted. rtp_connection.SendPacket( &FLVbuffer[13], FLV_len - 17, 99, false, 1); } else if ( FLVbuffer[0] == 0x09 ) { //Video Packet // DEBUG("Video Packet: %i\n", (FLVbuffer[16] & 0x1F) ); rtp_connection.SetTimestampUnit(1.0/90000);//90000 samples/second //Videodata heeft na de flv-tag nog 2 UI8 en een SI24 aan beschrijvingen die niet bij de NALU horen //NOTE:Moeten we eigenlijk wat adobe genereert als sequence headers/endings ook gwoon doorsturen? gebeurt nu wel rtp_connection.SendPacket( &FLVbuffer[16], FLV_len - 19, 98, false, 1); // hexdump(&FLVbuffer[16], FLV_len-19 ); } } else {//Datatype 0x12 = metadata, zouden we voor nu weggooien DEBUG("Metadata, throwing away\n"); } FLV_Dump();//dump packet and get ready for next } if ((SWBerr != SWBaseSocket::ok) && (SWBerr != SWBaseSocket::notReady)){ DEBUG("No more data! :-( (%s)\n", SWBerr.get_error().c_str()); return 0;//no more input possible! Fail immediately. } } } DEBUG("User disconnected.\n"); return 0; }//main