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How could I implement this lock-free queue pseudocode in C?

    q ← new record
    q^.value ← x
    q^.next ← NULL
        p ← tail
        succ ← COMPARE&SWAP(p^.next, NULL, q)
        if succ ≠ TRUE
            COMPARE&SWAP(tail, p, p^.next)
    until succ = TRUE

        p ← head
        if p^.next = NULL
            error queue empty
    until COMPARE&SWAP(head, p, p^.next)
    return p^.next^.value

How would be using the Built-in functions for atomic memory access

__sync_bool_compare_and_swap (type *ptr, type oldval type newval, ...)

I currently have

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;
share|improve this question
The only "convenience" of using global variables is that it lets you be lazy and avoid some typing. Since you're doing concurrency programming, you should be ashamed that you even asked that question. :-) – R.. May 23 '11 at 2:37
How is this different (e.g. not a duplicate) of the last question you asked? – abelenky May 23 '11 at 5:02
Note that names ending in _t are reserved in some standards (POSIX, not sure about the actual standard) and shouldn't be used in your code. You should use a different naming convention. – Chris Lutz May 23 '11 at 6:07
possible duplicate of Lock-free queue – Jens Gustedt May 23 '11 at 6:24
some rules to live by. 1) Always add/delete from the HEAD of the list. Faster! Simpler! A single CAS will add/remove items from list, and you eliminate a ton of race conditions. If you have to do more than one CAS, you will have to deal with race condtions. Changing the next ptr on the tail item and then changing the head or the tail at the same time is not possible with a single CAS. changing the head pointer of the list is! 2) only worry about ABA if you are removing an item and putting it back. If you add new ptrs to the list only, you wont have ABA. – johnnycrash Jun 15 '11 at 20:11
up vote 9 down vote accepted

Public domain, no license, portable implementation of lock-free algorithms in C.

Builds out of the box for Windows and Linux.

Uses GCC on Linux, so uses the intrinsics (well, apart from 128 bit CAS, there's no intrinsic - uses inline assembly for that).

Contains the M&S queue. Have a look at the source code and see how it's done.

share|improve this answer

If your goal is production code, simply don't do that; use locks.

In your previous question, you have got enough information explaining why. Correct lock-free implementations of even simple data structures such as queue and stack in the absence of garbage collector are tricky and sophisticated due to the (in)famous ABA problem. Unfortunately some research papers do not take ABA into account for whatever reasons; your pseudo-code seems taken from one of such papers. If you translate it to C and use heap allocated memory for nodes, it will cause undeterministic bugs if used in real code.

If you are doing this stuff to gain experience, then don't expect SO fellows to solve it for you. You have to read all the cited materials and much more, make sure you really understand all nuances of lock-free algorithms such as ABA, study various techniques intended to address the issue, study existing lock-free implementations, etc.

Finally, little guidance for translating the given pseudo-code into C:

q^.value ← x means q_elem->data = x;
repeat ... until COMPARE&SWAP(head, p, p^.next) is equivalent to do {...} while (!__sync_bool_compare_and_swap(q_obj->head, q_elem, q_elem->next);

where q_obj is an instance of type queue_t (i.e. a queue) and q_elem is an instance of type queueelem_t (i.e. a queue node).

share|improve this answer
So what do I do if I need more performance in production? IMHO Locks are overkill for almost every race condition. – johnnycrash Jun 15 '11 at 20:07

While not exactly C, check out the proposed Boost.Lockfree library. The internals are pretty easy to grok and could be ported to C, or, conversely, you could wrap Boost.Lockfree in a C API and use that.

Similarly, Boostcon 2010 had lots of discussion about lockfree programming and STM which is worth looking at if you're interested in this subject. I can't find a link to the videos, but the talks from Intel, IBM and AMD were worth watching since they're dealing with STM at the CPU level.

share|improve this answer

It sounds like what you want is called an MCS queue lock (although deceptively named, it's really lock-free, just not wait-free), and there is some good pseudo-code available here:

share|improve this answer
It's not deceptively named because it implements a lock, i.e. a mutual exclusion algorithm. – Alexey Kukanov May 23 '11 at 6:43

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