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I'm trying to implement a UDP-based server that maintains two sockets, one for controlling(ctrl_sock) and the other for data transmission(data_sock). The thing is, ctrl_sock is always uplink and data_sock is downlink. That is, clients will request data transmission/stop via the ctrl_sock and data will be sent to them via data_sock.

Now the problem is, since the model is connection-less, the server will have to maintain a list of registered clients' information( I call it peers_context) such that it can "blindly" push data to them until they ask to stop. During this blind transmission, clients may send controlling messages to the server via the ctrl_sock asynchronously. These information, besides initial Request and Stop, can also be, for example, preferences of file parts. Therefore, the peers_context has to be updated asynchronously. However, the transmission over the data_sock relies on this peers_context structure, hence raises a synchronization problem between ctrl_sock and data_sock. My question is, what can I do to safely maintain these two socks and the peers_context structure such that the asynchronous update of peers_context won't cause a havoc. By the way, the update of peers_context wouldn't be very frequent, that is why I need to avoid the request-reply model.

My initial consideration of the implementation is, to maintain ctrl_sock in the main thread(listener thread), and transmission over data_sock is maintained in the other thread(worker thread). However, I found it is difficult to synchronize in this case. For example, if I use mutexes in peers_context, whenever the worker thread locks peers_context, the listener thread wouldn't have access to it anymore when it needs to modify peers_context, because the worker thread works endlessly. On the other hand, if the listener thread holds the peers_context and writes to it, the worker thread would fail to read peers_context and terminates. Can anybody give me some suggestions?

By the way, the implementation is done in Linux environment in C. Only the listener thread would need to modify peers_context occasionally, the worker thread only needs to read. Thanks sincerely!

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Why not use TCP? You can set up a stream based connection with each client and perform the necessary communication without any worry of synchronizing it. Way easier and way more reliable than UDP. –  Raam Apr 19 '12 at 18:06
    
Sounds like you just need slightly more sophisticated locking. Clearly you can't just have worker hold lock endlessly. You need to lock, send packet, unlock –  TJD Apr 19 '12 at 18:10
2  
Would it be possible / desirable to recode this as a state machine using select() or poll()? This might perform better than a threaded design, and avoids all those irritating thread sync issues! –  Simon Elliott Apr 19 '12 at 18:19
    
@Raam This is a simulation work in my research, TCP traffic model is not considered. The reliability of transmission is ensured by the application layer. –  Ye Li Apr 19 '12 at 19:24
    
Hi, @SimonElliott, using select() looks like a really good idea. I will look into it, thanks for pointing it out. –  Ye Li Apr 19 '12 at 20:38

1 Answer 1

If there is strong contention for your peers_context then you need to need to shorten your critical sections. You talked about using a mutex. I assume you've already considered changing to a reader+writer lock and rejected it because you don't want the constant readers to starve a writer. How about this?

Make a very small structure that is an indirect reference to a peers_context like this:

struct peers_context_handle {
    pthread_mutex_t ref_lock;
    struct peers_context *the_actual_context;
    pthread_mutex_t write_lock;
};

Packet senders (readers) and control request processors (writers) always access the peers_mutex through this indirection.

Assumption: the packet senders never modify the peers_context, nor do they ever free it.

Packer senders briefly lock the handle, obtain the current version of the peers_context and unlock it:

pthread_mutex_lock(&(handle->ref_lock));
peers_context = handle->the_actual_context;
pthread_mutex_unlock(&(handle->ref_lock));

(In practice, you can even do away with the lock if you introduce memory barriers, because a pointer dereference is atomic on all platforms that Linux supports, but I wouldn't recommend it since you would have to start delving into memory barriers and other low-level stuff, and neither C nor POSIX guarantees that it will work anyway.)

Request processors don't update the peers_context, they make a copy and completely replace it. That's how they keep their critical section small. They do use write_lock to serialize updates, but updates are infrequent so that's not a problem.

pthread_mutex_lock(&(handle->write_lock));

/* Short CS to get the old version */
pthread_mutex_lock(&(handle->ref_lock));
old_peers_context = handle->the_actual_context;
pthread_mutex_unlock(&(handle->ref_lock));

new_peers_context = allocate_new_structure();
*new_peers_context = *old_peers_context;

/* Now make the changes that are requested */
new_peers_context->foo = 42;
new_peers_context->bar = 52;

/* Short CS to replace the context */
pthread_mutex_lock(&(handle->ref_lock));
handle->the_actual_context = new_peers_context;
pthread_mutex_unlock(&(handle->ref_lock));

pthread_mutex_unlock(&(handle->write_lock));

magic(old_peers_context);

What's the catch? It's the magic in the last line of code. You have to free the old copy of the peers_context to avoid a memory leak but you can't do it because there might be packet senders still using that copy.

The solution is similar to RCU, as used inside the Linux kernel. You have to wait for all of the packet sender threads to have entered a quiescent state. I'm leaving the implementation of this as an exercise for you :-) but here are the guidelines:

  • The magic() function adds old_peers_context so a to-be-freed queue (which has to be protected by a mutex).
  • One dedicated thread frees this list in a loop:
    1. It locks the to-be-freed list
    2. It obtains a pointer to the list
    3. It replaced the list with a new empty list
    4. It unlocks the to-be-freed list
    5. It clears a mark associated with each worker thread
    6. It waits for all marks to be set again
    7. It frees each item in its previously obtained copy of the to-be-freed list
  • Meanwhile, each worker thread sets its own mark at an idle point in its event loop (i.e. a point when it is not busy sending any packets or holding any peer_contexts.
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Hi @Celada, thanks sincerely for your kind reply. This knowledge is quite helpful. One thing I'm a little confused is in the "magic" part, how would I know when the packet sender has entered a quiescent state and let the free_old_peers_context thread know it? As I mentioned, the packet sender would keep sending packets as long as there is at least one peer in active in the peers_context. (Normally I traverse the peers list once, and send packet to each of them, and traverse the list again and again, maybe I should add an idle point here?) Thanks again. –  Ye Li Apr 20 '12 at 13:26
    
You have to arrange for your application to have a quiescent state. If you use an event loop (likely, since you are IO-bound) then it's right before or after you call poll(). –  Celada Apr 20 '12 at 15:28
    
You mean inside or outside the sending loop? The thing is, either select() or poll() will block the sender, which means, I can only send once when the monitoring socket is readable. For your information, here is a segment of my codes link. (I haven't start applying your reader-writer spin lock yet.) –  Ye Li Apr 20 '12 at 17:10
    
The code fragment you pasted seems to be related to waiting for messages on the control sockets. I thought you had worker threads that were sending packets continuously or frequently. These are the ones that need to have quiescent states. I suggest right before of after poll() in those threads. –  Celada Apr 20 '12 at 17:54
1  
I don't know if poll() is needed or used or not in your worker thread. I figured you might have an event loop that picks up the packets from whatever generates them or an event loop that waits for the data_sock to be ready to send (POLLOUT) but if that's not how your worker thread is designed, that's fine too. But you're sending pakets one after another. You must have a loop of SOME KIND in there. And does that loop not have a quiescent point, a point at which it is guaranteed that no peer_context structures are being held? –  Celada Apr 20 '12 at 19:28

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