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111 lines
3.2 KiB
C++
111 lines
3.2 KiB
C++
#include "LockFreeFIFO.h"
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#include "foundation/align.h"
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#include "foundation/atomics.h"
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#if 1 //def USE_VISTA_UP_API
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static int CAS2(FIFO_POINTER *fifo, queue_node_t *tail, size_t icount, queue_node_t *next, size_t icount2)
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{
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NALIGN(8) FIFO_POINTER compare = { tail, icount };
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NALIGN(8) FIFO_POINTER exchange = { next, icount2 };
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return nx_atomic_cmpxchg2(*(int64_t *)&compare, *(int64_t *)&exchange, (volatile int64_t *)fifo);
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//return atomic_compare_exchange_doublepointer((volatile intptr2_t *)fifo, *(intptr2_t *)&exchange, *(intptr2_t *)&compare);
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}
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#else
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inline char CAS2 (volatile void * addr, volatile void * v1, volatile long v2, void * n1, long n2)
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{
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register char c;
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__asm {
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push ebx
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push ecx
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push edx
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push esi
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mov esi, addr
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mov eax, v1
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mov ebx, n1
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mov ecx, n2
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mov edx, v2
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LOCK cmpxchg8b qword ptr [esi]
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sete c
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pop esi
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pop edx
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pop ecx
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pop ebx
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}
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return c;
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}
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#endif
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static int CAS(queue_node_t **fifo, queue_node_t *compare, queue_node_t *exchange)
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{
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return nx_atomic_cmpxchg_pointer(compare, exchange, (void* volatile *)fifo);
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}
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#define ENDFIFO(ff) ((queue_node_t*)0)
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void fifo_init(fifo_t *fifo)
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{
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fifo->dummy.Next = ENDFIFO(fifo); //makes the cell the only cell in the list
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fifo->head.fifo_node_t = fifo->tail.fifo_node_t = &fifo->dummy;
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fifo->head.count = fifo->tail.count = 0;
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fifo->count = 0;
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}
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void fifo_push(fifo_t *fifo, queue_node_t *cl)
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{
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queue_node_t * volatile tail;
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size_t icount;
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cl->Next = ENDFIFO(fifo); // // set the cell next pointer to end marker
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for (;;) // try until enqueue is done
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{
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icount = fifo->tail.count; // read the _tail modification count
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tail = fifo->tail.fifo_node_t; // read the _tail cell
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if (CAS(&tail->Next, ENDFIFO(fifo), cl)) // try to link the cell to the _tail cell
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{
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break; // enqueue is done, exit the loop
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}
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else // _tail was not pointing to the last cell, try to set _tail to the next cell
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{
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CAS2(&fifo->tail, tail, icount, tail->Next, icount+1);
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}
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}
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CAS2 (&fifo->tail, tail, icount, cl, icount+1); // enqueue is done, try to set _tail to the enqueued cell
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nx_atomic_inc(&fifo->count);
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}
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queue_node_t *fifo_pop(fifo_t *fifo)
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{
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queue_node_t * volatile head;
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for (;;)
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{
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size_t ocount = fifo->head.count; // read the _head modification count
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size_t icount = fifo->tail.count; // read the _tail modification count
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head = fifo->head.fifo_node_t; // read the _head cell
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queue_node_t *next = head->Next; // read the next cell
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if (ocount == fifo->head.count) // ensures that next is a valid pointer to avoid failure when reading next value
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{
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if (head == fifo->tail.fifo_node_t) // is queue empty or _tail falling behind ?
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{
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if (next == ENDFIFO(fifo)) // is queue empty ?
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{
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return 0; // queue is empty: return NULL
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}
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// _tail is pointing to _head in a non empty queue, try to set _tail to the next cell
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CAS2(&fifo->tail, head, icount, next, icount+1);
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}
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else if (next != ENDFIFO(fifo)) // if we are not competing on the dummy next
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{
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if (CAS2(&fifo->head, head, ocount, next, ocount+1)) // try to set _head to the next cell
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{
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break;
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}
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}
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}
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}
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nx_atomic_dec(&fifo->count);
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if (head == &fifo->dummy)
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{
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fifo_push(fifo,head);
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head = fifo_pop(fifo);
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}
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return head;
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}
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