This socket server has some error in it, most likely pthread related. If this keeps accepting client connections, after a while it will start hanging. It doesn't seems to be a memory leak because the memory occupied by the program remains the same but when I connect with a telnet client it will just hang and does not do anything.

It will still get to the puts("Handler assigned"); part but then it does nothing. Any ideas what can cause this?

    C socket server example, handles multiple clients using threads

#include<string.h>    //strlen
#include<stdlib.h>    //strlen
#include<arpa/inet.h> //inet_addr
#include<unistd.h>    //write
#include<pthread.h> //for threading , link with lpthread

//the thread function
void *connection_handler(void *);

int main(int argc , char *argv[])
    int socket_desc , client_sock , c , *new_sock;
    struct sockaddr_in server , client;

    //Create socket
    socket_desc = socket(AF_INET , SOCK_STREAM , 0);
    if (socket_desc == -1)
        printf("Could not create socket");
    puts("Socket created");

    //Prepare the sockaddr_in structure
    server.sin_family = AF_INET;
    server.sin_addr.s_addr = INADDR_ANY;
    server.sin_port = htons( 8888 );

    if( bind(socket_desc,(struct sockaddr *)&server , sizeof(server)) < 0)
        //print the error message
        perror("bind failed. Error");
        return 1;
    puts("bind done");

    listen(socket_desc , 3);

    //Accept and incoming connection
    puts("Waiting for incoming connections...");
    c = sizeof(struct sockaddr_in);

    //Accept and incoming connection
    puts("Waiting for incoming connections...");
    c = sizeof(struct sockaddr_in);
    while( (client_sock = accept(socket_desc, (struct sockaddr *)&client, (socklen_t*)&c)) )
        puts("Connection accepted");

        pthread_t sniffer_thread;
        new_sock = malloc(1);
        *new_sock = client_sock;

        if( pthread_create( &sniffer_thread , NULL ,  connection_handler , (void*) new_sock) < 0)
            perror("could not create thread");
            return 1;

        //Now join the thread , so that we dont terminate before the thread
        //pthread_join( sniffer_thread , NULL);
        puts("Handler assigned");

    if (client_sock < 0)
        perror("accept failed");
        return 1;

    return 0;

 * This will handle connection for each client
 * */
void *connection_handler(void *socket_desc)
    //Get the socket descriptor
    int sock = *(int*)socket_desc;
    int read_size;
    char *message , client_message[2000];

    //Send some messages to the client
    message = "Greetings! I am your connection handler\n";
    write(sock , message , strlen(message));

    message = "Now type something and i shall repeat what you type \n";
    write(sock , message , strlen(message));

    //Receive a message from client
    while( (read_size = recv(sock , client_message , 2000 , 0)) > 0 )
        //Send the message back to client
        write(sock , client_message , strlen(client_message));

    if(read_size == 0)
        puts("Client disconnected");
    else if(read_size == -1)
        perror("recv failed");

    //Free the socket pointer

    return 0;
  • 1
    You're only allocation one byte for an int. That's not good. (Why is this tagged C++ when it's obviously C?) – molbdnilo Mar 9 '14 at 22:56
  • why did you comment out the join? What happens to zombie threads on your system? – littleadv Mar 9 '14 at 23:11
  • Your while/accept loop doesn't make sense. accept() doesn't return zero, so looping until it does is futile, but it does return -1, and you're not checking for that in the right place. You should use read_size instead of strlen() when returning the message. – user207421 Mar 9 '14 at 23:17
  • Instead of allocating an int just cast the socket into a void* and pass that as a threadproc parameter then just cast back the void* param of the threadproc into int. – pasztorpisti Mar 9 '14 at 23:30
  1. Don't assume that writing to a socket writes all bytes. Always check the return value. Instead of write use your own sendbuf() function that writes to the socket in a loop and returns only when all bytes of your buffer has been sent.`
  2. You have to join every created thread exactly once otherwise you leak a thread handle. If you don't want to join a thread then you have 2 options:
    1. Create it as detached by specifying the attribute parameter for pthread in which you tell pthread_create() to create the thread as detached. Search for tutorials that use the pthread_attr_setdetachstate() function to find out how to do this.
    2. After creating the thread call pthread_detach() on it to tell the pthread library that you don't want to join the thread.
  3. Since you receive and send in turns if both the server and the client are using blocking sockets it may happen that the send buffers fill up on both ends if the client tries to send a large enough buffer and it results in a deadlock. Aid this with one of the following solutions:
    1. Use setsockopt() in your server to setup send/receive timeouts with the SO_SNDTIMEO and SO_RCVTIMEO socket options and optionally tweak the send/receive buffer sizes with SO_SNDBUF SO_RCVBUF options if you want but I wouldn't set these latter two options without reasons.
    2. At least one of the peers (preferably the server) should receive and send at the same time using asnyc socket.
  4. Use read_size instead of strlen(client_message) when sending back the message to the client. Assuming that the received chunk is zero terminated is wrong even if the client has sent a zero terminated message because you may receive it as fragmented.
  • I can't agree with (3). It's only an echo server, and he isn't reading and writing at the same time: he is reading and then writing. Also (3) contradicts (1). – user207421 Mar 9 '14 at 23:19
  • @EJP It is only my poor English, I thought receive and send in turns but for some reason my native language tells this in way that is more near to how I've defined my point 3. Thanks for pointing it out, I correct it. – pasztorpisti Mar 9 '14 at 23:23
  • Echo servers have existed for decades longer than asynchronous I/O. Ergo asynchronous I/O is not necessary to write a correct echo server. Re (1) you will find that all known implementations write all the data supplied, in blocking mode. There was a discussion about this some years ago in news:comp.protocols.tcp-ip where all the implementors agreed. – user207421 Mar 10 '14 at 0:15
  • @EJP If the client tries to write a whole buffer (maybe with more send/write calls) until its whole buffer is sent then if the buffer is larger than the sum of the 1.) send buffer of the client sock 2.) recv buffer of the server sock 3.) send buffer of the server sock, then it may happen that all 3 buffers fill up and then both the server and the client blocks in send. Of course if both the server and the client receives/sends in turns then blocking socket works but I'm usually more paranoid on the server side. – pasztorpisti Mar 10 '14 at 0:31
  • @EJP Thinking it over again writing a blocking socket implementation is usually simpler and using setsockopt() with SO_SNDTIMEO, SO_RCVTIMEO, SO_SNDBUF, SO_RCVBUF parameters results in a quite acceptable/tweakable and safe implementation but OP's current implementation doesn't include this setup. – pasztorpisti Mar 10 '14 at 0:49

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