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I am currently working on a project that uses the network. I have to send a struct

    struct Header
     uint32_t   magic;
     uint32_t   checksum;
     uint32_t   timestamp;
     uint16_t   commandId;
     uint16_t   dataSize;

    struct Packet
     struct Header  header;
     char       data[128];

I'm trying to send the struct Packet from one socket to another using TCP. I've tried to send my struct like that

      send(socket, &my_struct, sizeof(my_struct), 0);

but it is not working so I've tried to serialize my struct into a char*

unsigned char               *Serialization::serialize_uint32(unsigned char *buffer, uint32_t arg)
 buffer[3] = (arg >> 24);
 buffer[2] = (arg >> 16);
 buffer[1] = (arg >> 8);
 buffer[0] = (arg);
 return (buffer + sizeof(uint32_t));

unsigned char               *Serialization::serialize_uint16(unsigned char *buffer, uint16_t arg)
 buffer[1] = (arg >> 8);
 buffer[0] = (arg);
 return (buffer + sizeof(uint16_t));

    unsigned char                           *Serialization::deserialize_uint32(unsigned char *buffer, uint32_t *arg)
      memcpy((char*)arg, buffer, sizeof(uint32_t));
      return (buffer + sizeof(uint32_t));

    unsigned char                           *Serialization::deserialize_uint16(unsigned char *buffer, uint16_t *arg)
     memcpy((char*)arg, buffer, sizeof(uint16_t));
     return (buffer + sizeof(uint16_t));

even when a client symply send a struct Header data is corrupt when I read it server side Why is the data corrupt ?

Client sending loop

    TcpSocket                     tcp;
    Packet                        p;
    std::stringstream             ss;
    int                           cpt = 0;
    int                           ret = 0;
    char                          *serialized;

    tcp.connectSocket("", 4242);
    while (getchar())
  ss << cpt++;
  p.header.magic = 0;
  p.header.checksum = 1;
  p.header.timestamp = 2;
  p.header.commandId = 3;
  p.header.dataSize = ss.str().length();
  memset(, 0, 128);
  memcpy(, ss.str().c_str(), ss.str().length());
  serialized = new char[sizeof(Header) + ss.str().length()];
  bzero(serialized, sizeof(Header) + ss.str().length());
  Serialization::serialize_packet(serialized, p);
  hexDump("serialized", serialized+1, sizeof(Header) + ss.str().length());
  ret = tcp.write(serialized+1, sizeof(Header) + ss.str().length());

server recv loop: (fonction call by select() )

  buff = new char[bav];
  socket->read(buff, bav);
  hexdump("buff", buff, bav);

socket->read() :

    int                     TcpSocket::read(char *buff, int len)
      int                   ret;

      ret = recv(this->_socket, buff, len, 0);
      return (ret);

when I run those programs :

    [Server] new connexion :: [5]
    recv returns : 17
    buff serialized:
      0000  00 00 00 00 14 00 00 00 1c 00 00 00 1a 00 00 00  ................
      0010  1b

    serialized data:
      0000  00 00 00 00 00 00 01 00 00 00 02 00 03 00 01 30  ...............0
      0010  00
    send returns : 17
share|improve this question
Are we to assume the client is unpacking this in a proper reverse algorithm (and note you should be using unsigned char for your pack buffer). Also, your structure packing in the first case as well as machine endian format will come into play. – WhozCraig Dec 27 '12 at 22:02
For uint16 and uint32, you can just use ntohl, ntohs, htonl, and htons. The short answer is this: You must precisely define your data format at the byte level and correctly convert to and from that "wire format" when you send and receive. – David Schwartz Dec 27 '12 at 22:03
@DavidSchwartz I concur, but when I proffered that up as a solution a couple of days ago for a similar problem I was summarily jumped one-side and down the other because it wasn't in "the standard". Still stinging from that one.(I'd still do it with the POSIX functions regardless, btw, just as you probably would). – WhozCraig Dec 27 '12 at 22:05
There are two obvious problems. First, send(socket, &my_struct, sizeof(my_struct)) will not work because send() takes four arguments. Second, the serialization should be using unsigned char (i.e. 'byte') instead of char. As has been pointed out, the 'network' functions to obviate endian-ness issues are even better. – arayq2 Dec 27 '12 at 22:10
@WhozCraig: Since this question is tagged C and C++ and uses uint32_t, I can't imagine what "the standard" would be. :) – David Schwartz Dec 27 '12 at 22:11

So, this is wrong, and it will definitely cause errors.

buff = new char[bav];
socket->read(buff, bav);
hexdump("buff", buff, bav);
socket->read() :

int TcpSocket::read(char *buff, int len)
    return recv(this->_socket, buff, len, 0);

The return value from recv() must not be ignored.

From man 2 recv:

     These calls return the number of bytes received, or -1 if an error

     For TCP sockets, the return value 0 means the peer has closed its half
     side of the connection.

So, how many bytes did you receive? It's impossible to tell, if you discard the result from recv(). Maybe recv() failed, you'd never find out if you don't check the return value. Maybe it only filled up part of your buffer. You have to check the return code from recv(). This is the number one error people make when writing programs that use TCP.

You will need to alter your code to handle the following cases:

  1. The recv() call may completely fill your buffer.

  2. The recv() call may partially fill your buffer.

  3. The recv() call may return 0, indicating that the sender has shut down the connection.

  4. The recv() call may indicate EINTR because it was interrupted by a system call.

  5. The recv() call may indicate ECONNRESET because the sender has closed the connection suddenly or has disappeared.

  6. The recv() call may encounter some other error.

Remember: when using TCP, just because you send() 16 bytes doesn't mean that the other peer will recv() 16 bytes — it may be broken up into chunks. TCP is a stream protocol. Unlike UDP, adjacent chunks of data can be arbitrarily joined or split.

share|improve this answer
@WhozCraig: I think it's fine without bold. – Dietrich Epp Dec 28 '12 at 1:31
my client send return is 17, and my server recv return is 17 too :( – Camille Tolsa Dec 28 '12 at 11:58
@CamilleTolsa: I think you misunderstood. There is no point in telling me what the return value is, because the return value may be different every time. You must modify your program so that it behaves correctly for every return value recv() can give. – Dietrich Epp Dec 28 '12 at 21:48
I understand but, I use a circularbuffer to handle case [1] & [2], case [3] is handle to, case [4], [5] or [6] never happens in my tests. – Camille Tolsa Dec 30 '12 at 0:37
@CamilleTolsa: Try running client and server with Valgrind. Since you haven't posted the fixed code that handles at least cases 1 and 2, I have no way of knowing if it is correct or not. – Dietrich Epp Dec 30 '12 at 5:23

If I were you I would not reinvent the wheel. There are a lot of well documented and tested libraries / protocols out there for exactly the purpose you are looking for. A small list which just comes to my mind:

share|improve this answer
I know but I'm working on a school project and we are not allowed to use any libraries and we must not use a text protocol :( – Camille Tolsa Dec 27 '12 at 23:15
Please define 'library'? Is the C-Library a library? (E.g. are you allowed to use htonX / ntohX functions?) – Andreas Florath Dec 27 '12 at 23:20
we are allowed to use the libc htons/htonl & ntohX are allowed, but I've nerver used them and I don't know how to – Camille Tolsa Dec 27 '12 at 23:26
  1. You need to mask only the low 8 bits each time:

    buffer[3] = (arg >> 24) & 0xff;
    buffer[2] = (arg >> 16) & 0xff;
    buffer[1] = (arg >> 8) & 0xff;
    buffer[0] = (arg) & 0xff;
  2. Do the same when you deserialize

share|improve this answer
can you explain me why please – Camille Tolsa Dec 27 '12 at 22:04
Because buffer may be signed. – David Schwartz Dec 27 '12 at 22:11
I have tried it but still not working – Camille Tolsa Dec 27 '12 at 23:08
I've done the test in localhost – Camille Tolsa Dec 27 '12 at 23:16
This answer is wrong. Masking here doesn't do anything on any platform with 8-bit bytes. Since arg and buffer are both unsigned, all arithmetic is modular according to the C standard. So if x has type unsigned char, and if unsigned char has 8 bits, then x = arg and x = arg & 0xff produce exactly the same results. – Dietrich Epp Dec 28 '12 at 1:35

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