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Also I am doing a c implementation and currently have the structure of the queue:

typedef struct queueelem {
    queuedata_t data;
    struct queueelem *next;
} queueelem_t;

typedef struct queue {
    int capacity;
    int size;
    queueelem_t *head;
    queueelem_t *tail;
} queue_t;

queue_t *
queue_init(int capacity)
    queue_t *q = (queue_t *) malloc(sizeof(queue_t));
    q->head = q->tail = NULL;
    q->size = 0;
    q->capacity = capacity;
    return q;

int CompareAndExchange (void **a, void *comparand,void *new) {
    int success = 0;
    if ((*a) != comparand) {
       (*a) = new;
       //return     TRUE
       success = 1;
   //return     FALSE
    return success;

But not sure How to continue, with queue and dequeue functions...

  • How would the code look like?
share|improve this question
Compare&Swap and Fetch&Add are extension functions for the CPU probably built in your compiler/library – LumpN May 22 '11 at 15:58
I was doing the implementation of CompareAndExchange see my update. – cMinor May 22 '11 at 16:02
Lock-free queues are unicorns, you'll have to use the low-lock primitives provided by your runtime or operating system. FetchAndAdd, CompareAndSwap in the sample algorithm. That's where the buck stops, you didn't document your runtime environment. – Hans Passant May 22 '11 at 16:05
@darkcminor: You are aware, that you are using a lock to implement an essential utility function for your queue, therefore it isn't a lock-free queue! – LumpN May 22 '11 at 16:13
For compare-and-swap and fetch-and-add you may use GCC's atomic builtins: – Alexey Kukanov May 22 '11 at 19:05
up vote 2 down vote accepted

Your pseudo-code can (and most likely does) suffer from the ABA problem, as only the pointer is checked, and not an accompanying unique stamp, you'll find this paper of use in that regard and as a general guide to lock-free queue implementation, with its pitfalls.

When dealing with lock free programing, its also a good idea to read up on Herb Sutter's works, as He gives good, insightful explanations to whats required, why its required and its potential weak points (though beware that some of his older publications/articles where found to contain some hidden/unforseen problems).

share|improve this answer
Sometimes ABA does not matter, if an object's address is a permanent identifier for it. For example one place I was trying to use lock-free queues was in a heap manager, where the location of an object (a free block on the heap) was its identity. The same would apply if you were working with long-lived objects of another sort that are merely taken in and out of different lists without ever being freed or allocated. – R.. May 23 '11 at 2:33

and also the recent boost'con talk about this subject :

share|improve this answer

(Leaving this here for now, but see edit.)

Do you know a implementation of lock free queue in C?

I wrote lockless queue recently ( I can't actually guarantee it works correctly, but I can't find any bugs and I've used it in a couple of single threaded programs without any problems, so there's nothing too obvious wrong with it.

Trivial usage example:

queue_t queue;
int val = 42;
queue_init(&queue,sizeof val);
val = 0; 
printf("%i\n",val); // 42


As @Alexey Kukanov pointed out, queue_pop can fail if tmp is popped,freed,allocated again, and put again between checking for null and swapping:

    if(!tmp->next) return errno = ENODATA;
    /* can fail here */
    } while(!sync_swap(q->head,tmp,tmp->next));

I'm not yet sure how to fix this, but I'll (hopefully) update this once I figure it out. For now, disregard this.

share|improve this answer
What's the point of a lock-free queue for single-threaded code? In multi-threaded code, it will break because of the ABA problem. – Alexey Kukanov May 22 '11 at 19:25
@Alexey Kukanov, it's designed (not necessarily implemented, but designed) to not need to care what's behind the "A", as long the A is there, it should work correctly, even if the data behind the A has chenged. I do really need to go though it and verify that that's true, though. – David X May 23 '11 at 0:48
The slides referenced in the answer of Joel Falcou explain why your queue_pop suffers from ABA. There's a timing window between reading tmp->next and the CAS; whatever small, it's enough to make the value you read stale. – Alexey Kukanov May 23 '11 at 5:41
@Alexey Kukanov, crap, thanks for pointing that out. – David X May 23 '11 at 15:03
If you always add new items to the list there is NO ABA. Only when the same item is removed and then re-added do you have this problem. – johnnycrash Jun 15 '11 at 20:16

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