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For college, I am developing a local relay chat. I have to program a chat server and client that will only work on sending messages on different terminal windows on the same computer with threads and FIFOs.

The FIFOs part I am having no trouble, the threads part is the one that is giving me some headaches.

The server has one thread for receiving commands from a FIFO (used by all clients) and another thread for each client that is connected.

For each client that is connected I need to know a certain information. Firstly, I was using global variables, which worked as longs as there was only one client connected, which is much of a chat, to chat alone.

So, ideally I would have some data like:


per client that is connected. However, I don't know how to do that.

I could create a client_data[MAX_NUMBER_OF_THREADS] where client_data was a struct with everything I needed to have access to, but this would require to, in every communication between server and client to ask for the id of the client in the array client_data and that does not seem very practical

I could also instantiate a client_data immediately after creating the thread but it would only be available in that block, and that is not very practical either.

As you can see I am in need of a little guidance here. Any comment, piece of code or link to any relevant information is greatly appreciated.

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2 Answers 2

up vote 1 down vote accepted

Here is some psuedo code that might actually almost run. Note, I'm not freeing what I allocate, I'm not checking errors, I'm just trying to demonstrate how to pass a structure to a thread and use a simple mutex.

There is one thing to be careful of, The function pointer for threads specifies a void * argument, which could be literally any kind of type. In the thread, we assume that its safe to cast the thread argument to a type that we've defined for use. If you are passing multiple possible types, you have to be careful :)

I'm not quite sure about the structure of your program, or how you are handling threads, but here's a short approach-agnostic example on how to pass data to them:

typedef struct client {
    char *firstname;
    char *lastname;
    char *email;
    char *nickname
} client_t;

pthread_mutex_t client_lock = PTHREAD_MUTEX_INITIALIZER;

void *client_thread(void *threadarg)
    client_t *client = (client_t *) threadarg;

    /* read and write to client structure */

    /* do some other stuff */

int main(void)
    client_t *client;
    pthread_t cthread;

    client = (client_t *)malloc(sizeof(struct client));
    if (client == NULL)
      return 1;

    client->firstname = strdup("Joe Public");
    /* set the rest of the data */

    pthread_create(&cthread, NULL, (void *)client_thread, (void *)client);
    /* join / detach / etc */

    /* Free all the structure members and the structure itself */

   return 0;

I'm pretty sure this is what you were asking?

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Yours and Lirik response has given me some insight on how to approach this. I now have an idea to start implementing the threads. Thanks. –  nunos May 24 '10 at 23:42

I don't know what language you're using but here are some basic ideas:

  • Start your server in a thread (possibly your main thread).
  • The server's while loop will block on accepting a socket connection.
  • When the socket connection is accepted it should spawn a new thread to handle the connection.
  • Start communicating with the client in the new thread.

A simple socket server loop looks like this (in Java):

    ClientWorker w;
      //server.accept returns a client connection
      w = new ClientWorker(server.accept(), textArea);
      Thread t = new Thread(w);
    } catch (IOException e) {
      // log the exception or something...  

If you're wondering what it does- the ClientWorker is available here. In C# if you're creating a new Thread don't forget to set its IsBackground property to true so the thread closes when your app shuts down, i.e. no hanging threads.

Remember: accepting a socket connection or receiving data from a socket is usually a blocking call, which means that your thread will block until somebody connects to the socket or data comes through the socket.

In C#:

  1. The Chat Client:
  2. The Chat Server:
  3. A Basic Client/Server:

In Java:

  1. Chat Client/Server:
  2. Nakov Chat Client/Server:

In C++

  1. On Code Project:
  2. Another Code Project TCP/IP chat client/server:


Instead of doing global variables, just define a struct for the client account and declare an account variable for each user... here is how you can define the account information:

struct account {
   char nickname[32];
   char first_name[32];
   char last_name[32];
   char e_mail[32];
   char password[32];

When the client sends a message it should have a standard format: FROM|TO|CONTENT

struct message{
   char nickname_from[32];
   char nickname_to[32]; // optional
   char msg_content[256];

Put each message on the fifo [queue] and you will have all the information you need to identify who sent it.

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I appreciate your response, but I have to implement this without sockets. Just fifos and threads. It is a LOCAL relay chat. –  nunos May 24 '10 at 12:46
@nunos, it's the same concept with blocking i/o: instead of blocking on a socket you'll be blocking on the read from wherever you're reading. You still need to create a new thread for each "connected" client and establish a dedicated i/o channel of communication with the client. –  Lirik May 24 '10 at 14:40
Thread-per-client obviously doesn't scale though, so if you wanted a very robust server you would use non-blocking IO with something like select() to monitor multiple sockets from a single thread. But for something simple then thread-per-client is fine. –  Mike Weller May 24 '10 at 15:01

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