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I am using boost::pool to allocated/deallocate objects in 2 threads so that the thread A allocates, the thread B de-allocates.I wrapped the pool with a singleton and added mutex locks to make sure it is thread-safe:

class BOOSTMemPool{
        static  boost::mutex _sMutex;  
        boost::mutex _mMutex;  
        boost::pool<> _pool;
        static BOOSTMemPool &GetInstance(const size_t chunkSize){
            static BOOSTMemPool mempool(chunkSize);
            return mempool;
        void* Alloc(){
            return  _pool.malloc();
        void DeAlloc(void* chunk){
        BOOSTMemPool(const size_t chunkSize)
            assert(chunkSize > 0 );

It mostly works fine.But sometimes I am getting the crash with the following stack trace:

#0  0x00000000004b1014 in boost::simple_segregated_storage<unsigned long>::malloc (this=0x15438c8 <mynamespace::BOOSTMemPool::GetInstance(unsigned long)::mempool+40>) at /usr/include/boost/pool/simple_segregated_storage.hpp:155
#1  0x00000000004b0c2d in boost::pool<boost::default_user_allocator_new_delete>::malloc (this=0x15438c8 <mynamespace::BOOSTMemPool::GetInstance(unsigned long)::mempool+40>) at /usr/include/boost/pool/pool.hpp:444
#2  0x00000000004b0659 in mynamespace::BOOSTMemPool::Alloc (this=0x15438a0 <mynamespace::BOOSTMemPool::GetInstance(unsigned long)::mempool>) k     at ../../Documents/projects/include/xxxx/xxxx/BOOSTMemPool.h:30

I went to pool.hpp to check what is located at the line 444.The line is empty but these methods are located between the lines 434 and 446:

void * ordered_malloc()
{ //! Same as malloc, only merges the free lists, to preserve order. Amortized O(1).
    //! \returns a free chunk from that block.
    //! If a new memory block cannot be allocated, returns 0. Amortized O(1).
    // Look for a non-empty storage
    if (!store().empty())
        return (store().malloc)();
    return ordered_malloc_need_resize();

// Returns 0 if out-of-memory
// Allocate a contiguous section of n chunks
void * ordered_malloc(size_type n);
//! Same as malloc, only allocates enough contiguous chunks to cover n * requested_size bytes. Amortized O(n).
//! \returns a free chunk from that block.
//! If a new memory block cannot be allocated, returns 0. Amortized O(1).

So I wonder if the crash is related to "out-of memory" issue or it has something to do with multi threading.I currently not able to re-produce the crash systematically.

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