I've written client code that's supposed to send some data through a socket and read back an answer from the remote server.

I would like to unit-test that code. The function's signature is something along the lines of:

double call_remote(double[] args, int fd);

where fd is the file descriptor of the socket to the remote server.

Now the call_remote function will, after sending the data, block on reading the answer from the server. How can I stub such a remote server for unit-testing the code?

Ideally I would like something like:

int main() {
  int stub = /* initialize stub */
  double expected = 42.0;

  assert(expected == call_remote(/* args */, stub);

  return 0;

double stub_behavior(double[] args) {
  return 42.0;

I would like stub_behavior to be called and send the 42.0 value down the stubbed file descriptor.

Any easy way I can do that?

  • Depending on platform, you can override read/write/send/recv calls BTW. That way you can get the perfect stabbing the hard way.
    – user405725
    Jul 12, 2011 at 20:12

4 Answers 4


If this is a POSIX system, you can use fork() and socketpair():

double stub_behaviour(double []);

int initialize_stub(void)
    int sock[2];
    double data[N_DOUBLES_EXPECTED];

    socketpair(AF_UNIX, SOCK_STREAM, 0, sock);

    if (fork()) {
        /* Parent process */
        return sock[1];

    /* Child process */


    /* read N_DOUBLES_EXPECTED in */
    read(sock[0], data, sizeof data);

    /* execute stub */
    data[0] = stub_behaviour(data);

    /* write one double back */
    write(sock[0], data, sizeof data[0]);

int main()
  int stub = initialize_stub();
  double expected = 42.0;

  assert(expected == call_remote(/* args */, stub);

  return 0;

double stub_behavior(double args[])
  return 42.0;

...of course, you will probably want to add some error checking, and alter the logic that reads the request.

The file descriptor created by socketpair() is a normal socket, and thus socket calls like send() and recv() will work fine on it.

  • Thanks! Just out of curiosity, what does _exit() stand for?
    – lindelof
    Jul 13, 2011 at 9:58
  • 1
    @lindelof: _exit() is like exit(), except that it does not call atexit() handlers. It generally does not flush standard IO buffers and similar, which is why it is the preferred way to exit a child process that has not called execve(). The code calls _exit() there so that the child process does not return to main().
    – caf
    Jul 13, 2011 at 10:08

You could use anything which can be accessed with a file descriptor. A file or, if you want simulate blocking behaviour, a pipe.

Note: obviosly socket specific calls (setsockopt, fcntl, ioctl, ...) wouldn't work.

  • Unfortunately send(fd,...) doesn't work with a normal file descriptor. write(fd,...) does work. The man page for send says that it is equivalent to write if the flags argument is 0, but this is not true. Sep 26, 2016 at 19:42

I encountered the same situation and I'll share my approach. I created network dumps of exactly what the client should send, and what the server response should be. I then did a byte-by-byte comparison of the client request to ensure it matched. If the request is valid, I read from the response file and send it back to the client.

I'm happy to provide more details (when I'm at a machine with access to this code)

  • Does this mean you used two separate processes?
    – lindelof
    Jul 13, 2011 at 9:11
  • Yes. I forked right before executing the server send code. At that point, I was new to testing in C. I really just wanted something that worked and I figured that some testing was better than no testing, even though perhaps forking during a test isn't commonplace. Jul 13, 2011 at 12:56

Here is a C++ implementation (I know, the original question was for C, but it is easy to convert back to C if desired). It probably doesn't work for very large strings, as the socket will probably block if the string can't be buffered. But it works for small unit tests.

/// Class creates a simple socket for testing out functions that write to a socket.
/// Usage:
///  1. Call GetSocket() to get a file description socket ID
///  2. write to that socket FD
///  3. Call ReadAll() read back all the data that was written to that socket.
///  The sockets are all closed by ReadAll(), so this is a one-use object.
/// \example
///  MockSocket ms;
///  int socket = ms.GetSocket();
///  send(socket,"foo bar",7);
///  ...
///  std::string s = ms.ReadAll();
///  EXPECT_EQ("foo bar",s);

class MockSocket

    int GetSocket()
        socketpair(AF_UNIX, SOCK_STREAM, 0, sockets_);
        return sockets_[0];

    std::string ReadAll()
        std::string s;
        char buffer[256];
        while (true)
            int n = read(sockets_[1], buffer, sizeof(buffer));
            if (n > 0) s.append(buffer,n);
            if (n <= 0) break;
        return s;
    int sockets_[2];

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