How to write a thread-safe and efficient, lock-free memory allocator in C? By efficient I mean:

  1. Fast allocation & deallocation

  2. Optimal memory usage (minimal wastage and no external fragmentation)

  3. Minimal meta-data overhead



This paper presents a completely lock-free memory allocator. It uses only widely-available operating system support and hardware atomic instructions. It offers guaranteed availability even under arbitrary thread termination and crash-failure, and it is immune to dead-lock regardless of scheduling policies, and hence it can be used even in interrupt handlers and real-time applications without requiring special scheduler support. Also, by leveraging some high-level structures from Hoard, our allocator is highly scalable, limits space blowup to a constant factor, and is capable of avoiding false sharing...

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    This paper is the first thing I thought of when I saw the question. We used a variation of this allocator in one of our products and it was really very helpful. – Dan Olson Jan 3 '10 at 20:14
  • Thanks Dan. This sounds great! So I got confidence to improve on it. – Viet Jan 4 '10 at 1:38
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    Be aware that there are bugs in the paper as published. At minimum, the algorithm should be model checked. I hope this has been done since 2004, but I don't know. – Norman Ramsey Jan 4 '10 at 1:52
  • @Norman Ramsey: +1 you are exactly right... the paper should be used as a starting point. – paxos1977 Jan 4 '10 at 16:10
  • +1 very interesting link. Do you have links for the benchmarks they used in the paper? – R.. Jul 12 '11 at 20:59

Depends on what you mean by efficiency. If my concern was to make things fast, then I would probably give each thread it's own separate memory pool to work with, and a custom 'malloc' that took memory from that pool. Of course, if my concern was speed, I would probably avoid allocation in the first place.

There is no one answer; you'll be balancing a range of concerns. It will be pretty much impossible to get a lock-free allocator, but you can either do the locking early and infrequently ( by allocating large pools for each thread ) or you can make the locks so small and tight that they must be correct.

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    Note that per-thread pools completely fail with producer-consumer model. – R.. Jul 12 '11 at 21:00

You can use a lock free list and a couple of buckets of differing sizes.

So :

typedef struct
        SLIST_ENTRY entry;
    void* list;
byte mem[];
} mem_block;

typedef struct
    SLIST_HEADER root;
} mem_block_list;

#define BUCKET_COUNT 4

static mem_block_list Buckets[BUCKET_COUNT];

void init_buckets()
    for( int i = 0; i < BUCKET_COUNT; ++i )
        InitializeSListHead( &Buckets[i].root );
        for( int j = 0; j < BLOCKS_TO_ALLOCATE; ++j )
            mem_block* p = (mem_block*) malloc( sizeof( mem_block ) + (0x1 << BUCKET_COUNT) * 0x8 );
            InterlockedPushEntrySList( &Buckets[i].root, &p->entry );

void* balloc( size_t size )
    for( int i = 0; i < BUCKET_COUNT; ++i )
        if( size <= (0x1 << i) * 0x8 )
            mem_block* p = (mem_block*) InterlockedPopEntrySList( &Buckets[i].root );
            p->list = &Buckets[i];

    return 0;   // block to large

void  bfree( void* p )
    mem_block* block = (mem_block*) (((byte*)p) - sizeof( block->entry ));
    InterlockedPushEntrySList( ((mem_block_list*)block)->root, &block->entry );

SLIST_ENTRY, InterlockedPushEntrySList, InterlockedPopEntrySList, InitializeSListHead are functions for lock-free single-linked-list operations under Win32. Use the according operations on other OSes.

Drawbacks :

  • Overhead of sizeof( SLIST_ENTRY )
  • The buckets can only grow efficiently once at the start, after that you can run out of memory and have to ask the OS/other buckets. (Other buckets leads to fragmentation)
  • This sample is a bit too easy and must be extended to handle more cases
  • I wanted to write in C. Thanks anyway. – Viet Jan 3 '10 at 19:38
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    Updated code to C – Christopher Jan 3 '10 at 20:09
  • That's amazing! Thanks. – Viet Jan 4 '10 at 1:37

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