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I am trying to create a non-blocking queue package for concurrent application using the algorithm by Maged M. Michael and Michael L. Scott as described here.

This requires the use of atomic CompareAndSwap which is offered by the "sync/atomic" package.
I am however not sure what the Go-equivalent to the following pseudocode would be:

E9:   if CAS(&tail.ptr->next, next, <node, next.count+1>)

where tail and next is of type:

type pointer_t struct {
    ptr   *node_t
    count uint
}

and node is of type:

type node_t struct {
    value interface{}
    next  pointer_t
}

If I understood it correctly, it seems that I need to do a CAS with a struct (both a pointer and a uint). Is this even possible with the atomic-package?

Thanks for help!

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2 Answers 2

up vote 6 down vote accepted

If I understood it correctly, it seems that I need to do a CAS with a struct (both a > pointer and a uint). Is this even possible with the atomic-package?

No, that is not possible. Most architectures only support atomic operations on a single word. A lot of academic papers however use more powerful CAS statements (e.g. compare and swap double) that are not available today. Luckily there are a few tricks that are commonly used in such situations:

  • You could for example steal a couple of bits from the pointer (especially on 64bit systems) and use them, to encode your counter. Then you could simply use Go's CompareAndSwapPointer, but you need to mask the relevant bits of the pointer before you try to dereference it.

  • The other possibility is to work with pointers to your (immutable!) pointer_t struct. Whenever you want to modify an element from your pointer_t struct, you would have to create a copy, modify the copy and atomically replace the pointer to your struct. This idiom is called COW (copy on write) and works with arbitrary large structures. If you want to use this technique, you would have to change the next attribute to next *pointer_t.

I have recently written a lock-free list in Go for educational reasons. You can find the (imho well documented) source here: https://github.com/tux21b/goco/blob/master/list.go

This rather short example uses atomic.CompareAndSwapPointer excessively and also introduces an atomic type for marked pointers (the MarkAndRef struct). This type is very similar to your pointer_t struct (except that it stores a bool+pointer instead of an int+pointer). It's used to ensure that a node has not been marked as deleted while you are trying to insert an element directly afterwards. Feel free to use this source as starting point for your own projects.

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Thanks tux! Yes, my package is also for educational reason, and I can't say that I have much experience with lock-free coding. But your package helps learning. I will, however, wait to see if I might get an answer which might be more specific to the question. –  ANisus Jul 18 '12 at 8:08
    
Oh, sorry about that. I have now tried to answer your question more precisely. Feel free to ask if I have missed something again :) –  tux21b Jul 18 '12 at 9:08
    
Ah, yes. Thanks for adding to the answer. It helps me understand what is possible and what is the limits of atomic operation. Naah, now I feel your answer has both answered my question and given me some extra information useful for my project. –  ANisus Jul 19 '12 at 14:19
    
Why not avoid the additional indirection by making the node_t struct the immutable object and using CAS to update the ptr field in pointer_t? –  Matt Jul 27 '12 at 14:11
    
@Matt: That won't work. Suppose you have a linked list with three node_t structs A -> B -> C. If you want to append a new node D at the end of the list, you would have to create a new node_t for C, and change B.next atomically. Unfortunately there is no guarantee, that B is still part of the list. A.next might already point to C directly if someone has decided to remove B. This problem is solved by the separate markAndRef struct. –  tux21b Jul 27 '12 at 14:22

You can do something like this:

 if atomic.CompareAndSwapPointer(
    (*unsafe.Pointer)(unsafe.Pointer(tail.ptr.next)), 
    unsafe.Pointer(&next), 
    unsafe.Pointer(&pointer_t{&node, next.count + 1})
 )
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I've tried your suggestion, but since next is var pointer_t and not var *pointer_t it is not possible to convert. Nor does node_t have properties node and count. .. but I admit I don't understand why the pseudocode says <node, next.count+1> –  ANisus Jul 18 '12 at 7:57

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