I am trying to reason about how a simple server implemented in C with sockets can handle concurrent clients. Let's say a simple server waits for a client to connect and then read a message sent from the client. read() is a blocking function so the server will block until a client writes to it. If we assume two clients are concurrently writing to the server. The server will wake up to one of them but what will happen to the other one? is the server still "listening" while handling the request from the first client? I know that the bind function takes an int as the second argument that specifies the backlog (5 by default). does that mean that only 5 clients can connect concurrently to a server? If thats true, how are servers that handle multiple concurrent connections are implemented?


You should threads. Usually servers have a main thread which listens for connection. If a connection is made the main thread created another thread and passes that connection to the newly created thread. This way the connections are responded while main thread is still able to listen for new connections.

Edit: Here is the listen():

listen(int socket_fd, int backlog)

For a given listening socket kernal maintains two queue.

  • An incomplete connection queue for which SYN has been come but three-way handshaking (TCP) is not done completely. (SYN_RCV state) A complete connection queue
  • Three-way handshaking done. (ESTABLISHED state) backlog argument historically specify sum of both queues. But there is no formal definition of what backlog means.
  • This is exactly how I am implementing it. My question is what if multiple connections happen before the main thread dispatches the connection to a thread. – Keeto Jul 16 '15 at 18:32
  • @Keeto so when a connection is established. A new thread is created and then the connection is passed to it. If during this process a new connection comes it will be queued until the process is free. – Ehsan Ab Jul 16 '15 at 18:38
  • 1
    Yes, you can use a thread per connection. Then the time comes when you have more simultaneous clients then cores in the box. – Nikolai Fetissov Jul 17 '15 at 17:29
  • @NikolaiNFetissov True – Ehsan Ab Jul 20 '15 at 19:21

The select(2) and poll(2) system calls were invented to deal with this exact situation (with non-blocking sockets).

Then there is a multi-process approach with fork(2), and then, of course, the server could be implemented with threads.

The best solution for your case depends on your specific requirements.


using this function in the server:

int listen(int sockfd, int backlog); 

The 'backlog' indicates how many outstanding clients can be trying to connect at one time.

When this function returns:

int accept(int sockfd, struct sockaddr *addr, socklen_t *addrlen);  

then immediately , passing the 'sockfd' parameter to the

int pthread_create(pthread_t *thread, const pthread_attr_t *attr,
                      void *(*start_routine) (void *), void *arg);  

to have the thread handle the communication with the client.

Note: creating a thread is expensive and slow, so a 'pool' of threads should be initially created and activate one for each client connection and when the client disconnects, return the thread to the pool

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