I'm aware of blocking-queues and lock-free queues, a great example of those implementations being provided by Scott et al., but are there any implementations of a lock-free-blocking-queue?
In a lock-free-blocking-queue the dequeue will require no locking, but if there are no items in the queue it will block the consumer. Are there any implementations of such a beast? I prefer if they're C# implementations, but any implementation would technically work.
I think I end up with a race condition on line D14.1:
initialize(Q: pointer to queue t) node = new node() // Allocate a free node node–>next.ptr = NULL // Make it the only node in the linked list Q–>Head = Q–>Tail = node // Both Head and Tail point to it signal = new ManualResetEvent() // create a manual reset event enqueue(Q: pointer to queue t, value: data type) E1: node = new node() // Allocate a new node from the free list E2: node–>value = value // Copy enqueued value into node E3: node–>next.ptr = NULL // Set next pointer of node to NULL E4: loop // Keep trying until Enqueue is done E5: tail = Q–>Tail // Read Tail.ptr and Tail.count together E6: next = tail.ptr–>next // Read next ptr and count fields together E7: if tail == Q–>Tail // Are tail and next consistent? E8: if next.ptr == NULL // Was Tail pointing to the last node? E9: if CAS(&tail.ptr–>next, next, <node, next.count+1>) // Try to link node at the end of the linked list E10.1: signal.Set() // Signal to the blocking dequeues E10.2: break // Enqueue is done. Exit loop E11: endif E12: else // Tail was not pointing to the last node E13: CAS(&Q–>Tail, tail, <next.ptr, tail.count+1>) // Try to swing Tail to the next node E14: endif E15: endif E16: endloop E17: CAS(&Q–>Tail, tail, <node, tail.count+1>) // Enqueue is done. Try to swing Tail to the inserted node dequeue(Q: pointer to queue t, pvalue: pointer to data type): boolean D1: loop // Keep trying until Dequeue is done D2: head = Q–>Head // Read Head D3: tail = Q–>Tail // Read Tail D4: next = head–>next // Read Head.ptr–>next D5: if head == Q–>Head // Are head, tail, and next consistent? D6: if head.ptr == tail.ptr // Is queue empty or Tail falling behind? D7: if next.ptr == NULL // Is queue empty? D8.1: signal.WaitOne() // Block until an enqueue D8.X: // remove the return --- return FALSE // Queue is empty, couldn’t dequeue D9: endif D10: CAS(&Q–>Tail, tail, <next.ptr, tail.count+1>) // Tail is falling behind. Try to advance it D11: else // No need to deal with Tail // Read value before CAS, otherwise another dequeue might free the next node D12: *pvalue = next.ptr–>value D13: if CAS(&Q–>Head, head, <next.ptr, head.count+1>) // Try to swing Head to the next node D14.1: if(head.ptr == tail.ptr && next.ptr==NULL) // Is queue empty? <--- POSSIBLE RACE CONDITION??? D14.2: signal.Reset() D14.3: break // Dequeue is done. Exit loop D15: endif D16: endif D17: endif D18: endloop D19: free(head.ptr) // It is safe now to free the old dummy node D20: return TRUE // Queue was not empty, dequeue succeeded