Example #1
0
  /// 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;
  }
Example #2
0
  /// Loop reading DTSC data from stdin and processing it at the correct speed.
  void handleStdin(void * empty){
    if (empty != 0){return;}
    long long int timeDiff = 0;//difference between local time and stream time
    unsigned int lastPacket = 0;//last parsed packet timestamp
    std::string inBuffer;
    char charBuffer[1024*10];
    unsigned int charCount;
    long long int now;

    while (std::cin.good() && buffer_running){
      //slow down packet receiving to real-time
      now = getNowMS();
      if ((now - timeDiff >= lastPacket) || (lastPacket - (now - timeDiff) > 15000)){
        thisStream->getWriteLock();
        if (thisStream->getStream()->parsePacket(inBuffer)){
          thisStream->getStream()->outPacket(0);
          lastPacket = thisStream->getStream()->getTime();
          if ((now - timeDiff - lastPacket) > 15000 || (now - timeDiff - lastPacket < -15000)){
            timeDiff = now - lastPacket;
          }
          thisStream->dropWriteLock(true);
        }else{
          thisStream->dropWriteLock(false);
          std::cin.read(charBuffer, 1024*10);
          charCount = std::cin.gcount();
          inBuffer.append(charBuffer, charCount);
        }
      }else{
        usleep(std::min(14999LL, lastPacket - (now - timeDiff)) * 1000);
      }
    }
    buffer_running = false;
    SS.close();
  }
Example #3
0
 /// Loop reading DTSC data from an IP push address.
 /// No changes to the speed are made.
 void handlePushin(void * empty){
   if (empty != 0){return;}
   while (buffer_running){
     if (thisStream->getIPInput().connected()){
       if (thisStream->getIPInput().spool()){
         thisStream->getWriteLock();
         if (thisStream->getStream()->parsePacket(thisStream->getIPInput().Received().get())){
           thisStream->getStream()->outPacket(0);
           thisStream->dropWriteLock(true);
         }else{
           thisStream->dropWriteLock(false);
           usleep(1000);//1ms wait
         }
       }else{
         usleep(1000);//1ms wait
       }
     }else{
       usleep(1000000);//1s wait
     }
   }
   SS.close();
 }
Example #4
0
namespace Buffer{

  volatile bool buffer_running = true; ///< Set to false when shutting down.
  Stream * thisStream = 0;
  Socket::Server SS; ///< The server socket.

  /// Gets the current system time in milliseconds.
  long long int getNowMS(){
    timeval t;
    gettimeofday(&t, 0);
    return t.tv_sec * 1000 + t.tv_usec/1000;
  }//getNowMS


  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();
  }

  void handleUser(void * v_usr){
    user * usr = (user*)v_usr;
    #if DEBUG >= 4
    std::cerr << "Thread launched for user " << usr->MyStr << ", socket number " << usr->S.getSocket() << std::endl;
    #endif

    usr->myRing = thisStream->getRing();
    usr->S.Send(thisStream->getHeader());
    usr->S.flush();

    while (usr->S.connected()){
      usleep(5000); //sleep 5ms
      usr->Send();
      if (usr->S.spool() && usr->S.Received().size()){
        //delete anything that doesn't end with a newline
        if (!usr->S.Received().get().empty() && *(usr->S.Received().get().rbegin()) != '\n'){
          usr->S.Received().get().clear();
          continue;
        }
        usr->S.Received().get().resize(usr->S.Received().get().size() - 1);
        if (!usr->S.Received().get().empty()){
          switch (usr->S.Received().get()[0]){
            case 'P':{ //Push
              std::cout << "Push attempt from IP " << usr->S.Received().get().substr(2) << std::endl;
              if (thisStream->checkWaitingIP(usr->S.Received().get().substr(2))){
                if (thisStream->setInput(usr->S)){
                  std::cout << "Push accepted!" << std::endl;
                  usr->S = Socket::Connection(-1);
                  return;
                }else{
                  usr->Disconnect("Push denied - push already in progress!");
                }
              }else{
                usr->Disconnect("Push denied - invalid IP address!");
              }
            } break;
            case 'S':{ //Stats
              usr->tmpStats = Stats(usr->S.Received().get().substr(2));
              unsigned int secs = usr->tmpStats.conntime - usr->lastStats.conntime;
              if (secs < 1){secs = 1;}
              usr->curr_up = (usr->tmpStats.up - usr->lastStats.up) / secs;
              usr->curr_down = (usr->tmpStats.down - usr->lastStats.down) / secs;
              usr->lastStats = usr->tmpStats;
              thisStream->saveStats(usr->MyStr, usr->tmpStats);
            } break;
            case 's':{ //second-seek
              //ignored for now
            } break;
            case 'f':{ //frame-seek
              //ignored for now
            } break;
            case 'p':{ //play
              //ignored for now
            } break;
            case 'o':{ //once-play
              //ignored for now
            } break;
            case 'q':{ //quit-playing
              //ignored for now
            } break;
          }
        }
      }
    }
    usr->Disconnect("Socket closed.");
    thisStream->cleanUsers();
  }

  /// Loop reading DTSC data from stdin and processing it at the correct speed.
  void handleStdin(void * empty){
    if (empty != 0){return;}
    long long int timeDiff = 0;//difference between local time and stream time
    unsigned int lastPacket = 0;//last parsed packet timestamp
    std::string inBuffer;
    char charBuffer[1024*10];
    unsigned int charCount;
    long long int now;

    while (std::cin.good() && buffer_running){
      //slow down packet receiving to real-time
      now = getNowMS();
      if ((now - timeDiff >= lastPacket) || (lastPacket - (now - timeDiff) > 15000)){
        thisStream->getWriteLock();
        if (thisStream->getStream()->parsePacket(inBuffer)){
          thisStream->getStream()->outPacket(0);
          lastPacket = thisStream->getStream()->getTime();
          if ((now - timeDiff - lastPacket) > 15000 || (now - timeDiff - lastPacket < -15000)){
            timeDiff = now - lastPacket;
          }
          thisStream->dropWriteLock(true);
        }else{
          thisStream->dropWriteLock(false);
          std::cin.read(charBuffer, 1024*10);
          charCount = std::cin.gcount();
          inBuffer.append(charBuffer, charCount);
        }
      }else{
        usleep(std::min(14999LL, lastPacket - (now - timeDiff)) * 1000);
      }
    }
    buffer_running = false;
    SS.close();
  }

  /// Loop reading DTSC data from an IP push address.
  /// No changes to the speed are made.
  void handlePushin(void * empty){
    if (empty != 0){return;}
    while (buffer_running){
      if (thisStream->getIPInput().connected()){
        if (thisStream->getIPInput().spool()){
          thisStream->getWriteLock();
          if (thisStream->getStream()->parsePacket(thisStream->getIPInput().Received().get())){
            thisStream->getStream()->outPacket(0);
            thisStream->dropWriteLock(true);
          }else{
            thisStream->dropWriteLock(false);
            usleep(1000);//1ms wait
          }
        }else{
          usleep(1000);//1ms wait
        }
      }else{
        usleep(1000000);//1s wait
      }
    }
    SS.close();
  }

  /// 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;
  }

};//Buffer namespace
Example #5
0
namespace Buffer {

volatile bool buffer_running = true; ///< Set to false when shutting down.
Stream * thisStream = 0;
Socket::Server SS; ///< The server socket.

///\brief A function running in a thread to send all statistics.
///\param empty A null pointer.
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){
		Util::sleep(1000); //sleep one second
		if ( !StatsSocket.connected()){
			StatsSocket = Socket::Connection("/tmp/mist/statistics", true);
		}
		if (StatsSocket.connected()){
			Stream::get()->getReadLock();
			StatsSocket.Send(Stream::get()->getStats());
			Stream::get()->dropReadLock();
			StatsSocket.SendNow(double_newline);
		}
	}
	StatsSocket.close();
}

///\brief A function running in a thread to handle a new user connection.
///\param v_usr The user that is connected.
void handleUser(void * v_usr){
	user * usr = (user*)v_usr;
	thisStream->addUser(usr);
#if DEBUG >= 5
	std::cerr << "Thread launched for user " << usr->MyStr << ", socket number " << usr->S.getSocket() << std::endl;
#endif

	Stream::get()->getReadLock();
	usr->myRing = thisStream->getRing();
	if (thisStream->getStream()->metadata && thisStream->getHeader().size() > 0){
		usr->S.SendNow(thisStream->getHeader());
	}
	Stream::get()->dropReadLock();

	while (usr->S.connected()){
		Util::sleep(5); //sleep 5ms
		if ( !usr->myRing->playCount || !usr->Send()){
			if (usr->myRing->updated){
				Stream::get()->getReadLock();
				usr->S.SendNow(Stream::get()->getStream()->metadata.toNetPacked());
				Stream::get()->dropReadLock();
				usr->myRing->updated = false;
			}
			if (usr->S.spool()){
				while (usr->S.Received().size()){
					//delete anything that doesn't end with a newline
					if ( !usr->S.Received().get().empty() && *(usr->S.Received().get().rbegin()) != '\n'){
						usr->S.Received().get().clear();
						continue;
					}
					usr->S.Received().get().resize(usr->S.Received().get().size() - 1);
					if ( !usr->S.Received().get().empty()){
						switch (usr->S.Received().get()[0]){
						case 'P': { //Push
							std::cout << "Push attempt from IP " << usr->S.Received().get().substr(2) << std::endl;
							if (thisStream->checkWaitingIP(usr->S.Received().get().substr(2))){
								usr->S.Received().get().clear();
								if (thisStream->setInput(usr->S)){
									std::cout << "Push accepted!" << std::endl;
									usr->S = Socket::Connection( -1);
									return;
								}else{
									usr->Disconnect("Push denied - push already in progress!");
								}
							}else{
								usr->Disconnect("Push denied - invalid IP address!");
							}
							break;
						}
						case 'S': { //Stats
							usr->tmpStats = Stats(usr->S.Received().get().substr(2));
							unsigned int secs = usr->tmpStats.conntime - usr->lastStats.conntime;
							if (secs < 1){
								secs = 1;
							}
							usr->curr_up = (usr->tmpStats.up - usr->lastStats.up) / secs;
							usr->curr_down = (usr->tmpStats.down - usr->lastStats.down) / secs;
							usr->lastStats = usr->tmpStats;
							thisStream->saveStats(usr->MyStr, usr->tmpStats);
							break;
						}
						case 's': { //second-seek
							unsigned int ms = JSON::Value(usr->S.Received().get().substr(2)).asInt();
							usr->myRing->waiting = false;
							usr->myRing->starved = false;
							usr->myRing->b = thisStream->getStream()->msSeek(ms);
							if (usr->myRing->playCount > 0){
								usr->myRing->playCount = 0;
							}
							break;
						}
						case 'f': { //frame-seek
							unsigned int frameno = JSON::Value(usr->S.Received().get().substr(2)).asInt();
							usr->myRing->waiting = false;
							usr->myRing->starved = false;
							usr->myRing->b = thisStream->getStream()->frameSeek(frameno);
							if (usr->myRing->playCount > 0){
								usr->myRing->playCount = 0;
							}
							break;
						}
						case 'p': { //play
							usr->myRing->playCount = -1;
							break;
						}
						case 'o': { //once-play
							if (usr->myRing->playCount >= 0){
								usr->myRing->playCount++;
							}
							break;
						}
						case 'q': { //quit-playing
							usr->myRing->playCount = 0;
							break;
						}
						}
						usr->S.Received().get().clear();
					}
				}
			}
		}
	}
	usr->Disconnect("Socket closed.");
	thisStream->removeUser(usr);
}

///\brief A function running a thread to handle input data through stdin.
///
///Automatically slows down to realtime playback.
///\param empty A null pointer.
void handleStdin(void * empty){
	if (empty != 0){
		return;
	}
	long long int timeDiff = 0; //difference between local time and stream time
	unsigned int lastPacket = 0; //last parsed packet timestamp
	std::string inBuffer;
	char charBuffer[1024 * 10];
	unsigned int charCount;
	long long int now;

	while (std::cin.good() && buffer_running){
		//slow down packet receiving to real-time
		now = Util::getMS();
		if (((now - timeDiff) >= lastPacket) || (lastPacket - (now - timeDiff) > 15000)){
			thisStream->getWriteLock();
			if (thisStream->getStream()->parsePacket(inBuffer)){
				thisStream->getStream()->outPacket(0);
				lastPacket = thisStream->getStream()->getTime();
				if ((now - timeDiff - lastPacket) > 15000 || (now - timeDiff - lastPacket < -15000)){
					timeDiff = now - lastPacket;
				}
				thisStream->dropWriteLock(true);
			}else{
				thisStream->dropWriteLock(false);
				std::cin.read(charBuffer, 1024 * 10);
				charCount = std::cin.gcount();
				inBuffer.append(charBuffer, charCount);
			}
		}else{
			Util::sleep(std::min(15LL, lastPacket - (now - timeDiff)));
		}
	}
	buffer_running = false;
}

///\brief A function running a thread to handle input data through rtmp push.
///\param empty A null pointer.
void handlePushin(void * empty){
	if (empty != 0){
		return;
	}
	while (buffer_running){
		if (thisStream->getIPInput().connected()){
			if (thisStream->getIPInput().spool()){
				bool packed_parsed = false;
				do{
					thisStream->getWriteLock();
					if (thisStream->getStream()->parsePacket(thisStream->getIPInput().Received())){
						thisStream->getStream()->outPacket(0);
						thisStream->dropWriteLock(true);
						packed_parsed = true;
					}else{
						thisStream->dropWriteLock(false);
						packed_parsed = false;
						Util::sleep(1); //1ms wait
					}
				}while (packed_parsed);
			}else{
				Util::sleep(1); //1ms wait
			}
		}else{
			Util::sleep(1000); //1s wait
		}
	}
}

///\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;
}

} //Buffer namespace
Example #6
0
///\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;
}