4 #include "model-assert.h"
9 #define MAX_FREELIST 4 /* Each thread can own up to MAX_FREELIST free nodes */
10 #define INITIAL_FREE 2 /* Each thread starts with INITIAL_FREE free nodes */
12 #define POISON_IDX 0x666
14 static unsigned int (*free_lists)[MAX_FREELIST];
16 /* Search this thread's free list for a "new" node */
17 static unsigned int new_node()
20 int t = get_thread_num();
21 for (i = 0; i < MAX_FREELIST; i++) {
22 //unsigned int node = load_32(&free_lists[t][i]);
23 unsigned int node = free_lists[t][i];
25 //store_32(&free_lists[t][i], 0);
30 /* free_list is empty? */
35 /* Place this node index back on this thread's free list */
36 static void reclaim(unsigned int node)
39 int t = get_thread_num();
41 /* Don't reclaim NULL node */
44 for (i = 0; i < MAX_FREELIST; i++) {
45 /* Should never race with our own thread here */
46 //unsigned int idx = load_32(&free_lists[t][i]);
47 unsigned int idx = free_lists[t][i];
49 /* Found empty spot in free list */
51 //store_32(&free_lists[t][i], node);
52 free_lists[t][i] = node;
56 /* free list is full? */
60 void init_queue(queue_t *q, int num_threads)
64 /* Initialize each thread's free list with INITIAL_FREE pointers */
65 /* The actual nodes are initialized with poison indexes */
66 free_lists = malloc(num_threads * sizeof(*free_lists));
67 for (i = 0; i < num_threads; i++) {
68 for (j = 0; j < INITIAL_FREE; j++) {
69 free_lists[i][j] = 2 + i * MAX_FREELIST + j;
70 atomic_init(&q->nodes[free_lists[i][j]].next, MAKE_POINTER(POISON_IDX, 0));
74 /* initialize queue */
75 atomic_init(&q->head, MAKE_POINTER(1, 0));
76 atomic_init(&q->tail, MAKE_POINTER(1, 0));
77 atomic_init(&q->nodes[1].next, MAKE_POINTER(0, 0));
80 void enqueue(queue_t *q, unsigned int val)
89 //store_32(&q->nodes[node].value, val);
90 q->nodes[node].value = val;
91 tmp = atomic_load_explicit(&q->nodes[node].next, wildcard(1)); // relaxed
92 set_ptr(&tmp, 0); // NULL
93 atomic_store_explicit(&q->nodes[node].next, tmp, wildcard(2)); // relaxed
96 tail = atomic_load_explicit(&q->tail, wildcard(3)); // acquire
97 // FIXME: SCFence makes this relaxed
98 next = atomic_load_explicit(&q->nodes[get_ptr(tail)].next, wildcard(4)); //acquire
99 if (tail == atomic_load_explicit(&q->tail, wildcard(5))) { // relaxed
101 /* Check for uninitialized 'next' */
102 //MODEL_ASSERT(get_ptr(next) != POISON_IDX);
104 if (get_ptr(next) == 0) { // == NULL
105 pointer value = MAKE_POINTER(node, get_count(next) + 1);
106 success = atomic_compare_exchange_strong_explicit(&q->nodes[get_ptr(tail)].next,
107 &next, value, wildcard(6), wildcard(7)); // release & relaxed
111 get_ptr(atomic_load_explicit(&q->nodes[get_ptr(tail)].next, wildcard(8))); // acquire
112 pointer value = MAKE_POINTER(ptr,
113 get_count(tail) + 1);
114 atomic_compare_exchange_strong_explicit(&q->tail,
116 wildcard(9), wildcard(10)); // release & relaxed
121 atomic_compare_exchange_strong_explicit(&q->tail,
123 MAKE_POINTER(node, get_count(tail) + 1),
124 wildcard(11), wildcard(12)); // release & relaxed
127 bool dequeue(queue_t *q, unsigned int *retVal)
136 head = atomic_load_explicit(&q->head, wildcard(13)); // acquire
137 // FIXME: SCFence makes this acquire
138 tail = atomic_load_explicit(&q->tail, wildcard(14)); // relaxed
139 next = atomic_load_explicit(&q->nodes[get_ptr(head)].next, wildcard(15)); // acquire
140 if (atomic_load_explicit(&q->head, wildcard(16)) == head) { // relaxed
141 if (get_ptr(head) == get_ptr(tail)) {
143 /* Check for uninitialized 'next' */
144 //MODEL_ASSERT(get_ptr(next) != POISON_IDX);
146 if (get_ptr(next) == 0) { // NULL
147 return false; // NULL
149 atomic_compare_exchange_strong_explicit(&q->tail,
151 MAKE_POINTER(get_ptr(next), get_count(tail) + 1),
152 wildcard(17), wildcard(18)); // release & relaxed
155 //value = load_32(&q->nodes[get_ptr(next)].value);
156 value = q->nodes[get_ptr(next)].value;
157 // FIXME: SCFence makes this relaxed
158 success = atomic_compare_exchange_strong_explicit(&q->head,
159 &head, MAKE_POINTER(get_ptr(next), get_count(head) + 1),
160 wildcard(19), wildcard(20)); // release & relaxed
166 reclaim(get_ptr(head));