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I have a class named GenericMessage shown in the 1st code snippet below (defined in GenericMessage.hxx).

I have a .cpp file named TestFE.cpp (see the 2nd code snippet below) that attempts to send an instance of class GenericMessage via a ZMQ queue (See also the 4th code snippet very below - ZmqHandler.hxx). TesfFE.cpp implements the ZMQ push pattern here by including ZmqHandler.hxx.

I have yet another .cpp file named TestBE.cpp (see the 3rd code snippet below) that receives so mentioned GenericMessage instance via the ZMQ queue. TestBE.cpp implements the ZMQ pull pattern here to retrive the GenericMessage instance over the ZMQ queue.

In the TestFE.cpp, I use the standard memcpy function in order to convert the GenericMessage object into a form that can be accepted by the ZMQ queue. On the line 21 of TestBE.cpp (marked in the 3rd code snippet in comments), I get a segmentation fault because it looks the memcpy does not work properly on the sender side which is TestFE.cpp. I got the below message when TestBE is executed. I am also providing the gdb backtrace just below. Could you please tell me what's wrong here? Why do you think memcpy cannot copy my GenericMessage object to ZMQ message_t format properly? Or do you think the problem is st else? Any comments would be appreciated.


  $ ./TestBE
  Connecting to FE...
  Segmentation fault (core dumped)

GDB Backtrace

  (gdb) r
   Starting program: /home/holb/HOLB_DESIGN/ZMQ/WORK1/TestBE 
  [Thread debugging using libthread_db enabled]
  Using host libthread_db library "/lib/i386-linux-gnu/libthread_db.so.1".
  [New Thread 0xb7c84b40 (LWP 4252)]
  [New Thread 0xb7483b40 (LWP 4253)]
  Connecting to FE...

  Program received signal SIGSEGV, Segmentation fault.
  0xb7f371cc in std::basic_string<char, std::char_traits<char>, std::allocator<char>       >::basic_string(std::string const&) ()
  from /usr/lib/i386-linux-gnu/libstdc++.so.6
  (gdb) bt
  #0  0xb7f371cc in std::basic_string<char, std::char_traits<char>,      std::allocator<char> >::basic_string(std::string const&) ()
  from /usr/lib/i386-linux-gnu/libstdc++.so.6
  #1  0x08049621 in GenericMessage<std::string>::getData (this=0xbffff06c)
  at GenericMessage.hxx:18
  #2  0x08049075 in main () at TestBE.cxx:21

CODE SNIPPET 1 (GenericMessage.hxx) #include #include #include

  template <class T>
  class GenericMessage {

         GenericMessage(int id, T msg): 


         T getData()
           //LINE 18 is the following line!
           return data;

          std::string toString()
              std::ostringstream ss;
              ss << getBeId();
              std::string ret =  ss.str();

              return ret;

          void setBeId(int id)
              beId = id;

          int getBeId()
             return beId;
        int beId;
        T data;

CODE SNIPPET 2 (TestFE.cxx ==> The sender) #include "ZmqHandler.hxx" //SEE THE 4th snippet at the bottom for the content of ZmqHandler.hxx

 int main ()
     ZmqHandler<std::string> zmqHandler;
     int counter = 1;

        std::string data = "Hello there!\0";
        GenericMessage<std::string> msg(counter, data);

     return 0;

CODE SNIPPET 3 (TestBE.cxx ==> The receiver)

  #include "zmq.hpp"
  #include "GenericMessage.hxx"
  #include <string>
  #include <iostream>

  int main ()
      //  Prepare our context and socket
      zmq::context_t context (1);
      zmq::socket_t socket (context, ZMQ_PULL);

     std::cout << "Connecting to FE..." << std::endl;
     socket.connect ("tcp://localhost:5555");

        zmq::message_t reply;
            socket.recv (&reply);
            GenericMessage<std::string> *msg = (GenericMessage<std::string>*)(reply.data());                
            std::cout << "RECEIVED: " << msg->toString() << std::endl;

           /* *********************************  */
           /* The member "data" in class GenericMessage cannot be received while the  member "id" in the previous line can be received. */
           std::cout << "DATA: " << ((std::string)msg->getData())  << std::endl;
           /* ********************************** */

     return 0;

CODE SNIPPET 4 (ZMQHandler.hxx)

  #include "zmq.hpp"  
  #include "GenericMessage.hxx"
  #include <pthread.h>
  #include <unistd.h>
  #include <cassert>

  template <class T>
  class ZmqHandler {
    mOutbHandlerSocket(mContext, ZMQ_PUSH)
          mOutbHandlerSocket.bind ("tcp://*:5555");       

       ~ZmqHandler() {}

       void *sendToBE(GenericMessage<T> *theMsg)
         //  Place the new request to the zmq queue for BE consumption
         zmq::message_t msgToSend(sizeof(*theMsg));

         memcpy ( msgToSend.data(), ((GenericMessage<T>*)theMsg), sizeof(*  ((GenericMessage<T>*)theMsg)));


         std::cout << "SENT request: [" << theMsg->toString() << "]" << std::endl;

         return (NULL);

        zmq::context_t mContext;
        zmq::socket_t mOutbHandlerSocket; 

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I am sorry for the title ZMQ failing... It's probably not ZMQ failing rather my code. So, the title was not inetentional and sorry if someone is offended. –  Farda arda Jan 21 '13 at 11:28
It would help if you could point out line 18 in the file GenericMessage.hxx. Furthermore, you can use the up command of GDB to go up the call stack, so when you reach your code you can examine variables to see their values. –  Joachim Pileborg Jan 21 '13 at 11:33
Thanks, I just pointed line 18 in the 1st code snippet including GenericMessage.hxx. –  Farda arda Jan 21 '13 at 11:44
It looks this memcpy does not work properly for complex objects. I am thinking of serialzing my object into a c++ iostream and sending the stream over the queue but this might bring some performance issue. I have a java background and serialization is a kinda expensive there but perhaps for c++ it's not. What do you think? –  Farda arda Jan 21 '13 at 11:47

1 Answer 1

up vote 2 down vote accepted

I'm beginning to see the problem. It's that you send the complete "structure", which contains a member variable that have pointers (the std::string). This you can not do, as pointers are only valid in the program that created them.

You have to serialize the structure before sending it, and then de-serialize on the receiving end.

You can use libraries such as Boost serialization for this, or Google protocol buffers, or any other number of libraries.

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