static inline int ptr_valid(struct pool *pool, void *ptr)
{
- unsigned int pool_size = (pool->nr_blocks + 1) * SMALLOC_BPL;
+ unsigned int pool_size = pool->nr_blocks * SMALLOC_BPL;
return (ptr >= pool->map) && (ptr < pool->map + pool_size);
}
return (size + SMALLOC_BPB - 1) / SMALLOC_BPB;
}
-static int blocks_iter(unsigned int *map, unsigned int idx,
- unsigned int nr_blocks,
+static int blocks_iter(struct pool *pool, unsigned int pool_idx,
+ unsigned int idx, unsigned int nr_blocks,
int (*func)(unsigned int *map, unsigned int mask))
{
+
while (nr_blocks) {
unsigned int this_blocks, mask;
+ unsigned int *map;
+
+ if (pool_idx >= pool->nr_blocks)
+ return 0;
+
+ map = &pool->bitmap[pool_idx];
this_blocks = nr_blocks;
if (this_blocks + idx > SMALLOC_BPI) {
nr_blocks -= this_blocks;
idx = 0;
- map++;
+ pool_idx++;
}
return 1;
static int mask_clear(unsigned int *map, unsigned int mask)
{
+ assert((*map & mask) == mask);
*map &= ~mask;
return 1;
}
static int mask_set(unsigned int *map, unsigned int mask)
{
+ assert(!(*map & mask));
*map |= mask;
return 1;
}
-static int blocks_free(unsigned int *map, unsigned int idx,
- unsigned int nr_blocks)
+static int blocks_free(struct pool *pool, unsigned int pool_idx,
+ unsigned int idx, unsigned int nr_blocks)
{
- return blocks_iter(map, idx, nr_blocks, mask_cmp);
+ return blocks_iter(pool, pool_idx, idx, nr_blocks, mask_cmp);
}
-static void set_blocks(unsigned int *map, unsigned int idx,
- unsigned int nr_blocks)
+static void set_blocks(struct pool *pool, unsigned int pool_idx,
+ unsigned int idx, unsigned int nr_blocks)
{
- blocks_iter(map, idx, nr_blocks, mask_set);
+ blocks_iter(pool, pool_idx, idx, nr_blocks, mask_set);
}
-static void clear_blocks(unsigned int *map, unsigned int idx,
- unsigned int nr_blocks)
+static void clear_blocks(struct pool *pool, unsigned int pool_idx,
+ unsigned int idx, unsigned int nr_blocks)
{
- blocks_iter(map, idx, nr_blocks, mask_clear);
+ blocks_iter(pool, pool_idx, idx, nr_blocks, mask_clear);
}
static inline int __ffs(int word)
fio_mutex_remove(lock);
}
+#ifdef SMALLOC_REDZONE
static void fill_redzone(struct block_hdr *hdr)
{
-#ifdef SMALLOC_REDZONE
unsigned int *postred = (void *) hdr + hdr->size - sizeof(unsigned int);
hdr->prered = SMALLOC_PRE_RED;
*postred = SMALLOC_POST_RED;
-#endif
}
static void sfree_check_redzone(struct block_hdr *hdr)
{
-#ifdef SMALLOC_REDZONE
unsigned int *postred = (void *) hdr + hdr->size - sizeof(unsigned int);
if (hdr->prered != SMALLOC_PRE_RED) {
hdr, *postred, SMALLOC_POST_RED);
assert(0);
}
-#endif
}
+#else
+static void fill_redzone(struct block_hdr *hdr)
+{
+}
+
+static void sfree_check_redzone(struct block_hdr *hdr)
+{
+}
+#endif
static void sfree_pool(struct pool *pool, void *ptr)
{
idx = (offset % SMALLOC_BPL) / SMALLOC_BPB;
pool_lock(pool);
- clear_blocks(&pool->bitmap[i], idx, size_to_blocks(hdr->size));
+ clear_blocks(pool, i, idx, size_to_blocks(hdr->size));
if (i < pool->next_non_full)
pool->next_non_full = i;
pool->free_blocks += size_to_blocks(hdr->size);
}
idx = find_next_zero(pool->bitmap[i], last_idx);
- if (!blocks_free(&pool->bitmap[i], idx, nr_blocks)) {
+ if (!blocks_free(pool, i, idx, nr_blocks)) {
idx += nr_blocks;
if (idx < SMALLOC_BPI)
last_idx = idx;
}
continue;
}
- set_blocks(&pool->bitmap[i], idx, nr_blocks);
+ set_blocks(pool, i, idx, nr_blocks);
offset = i * SMALLOC_BPL + idx * SMALLOC_BPB;
break;
}
static void *smalloc_pool(struct pool *pool, unsigned int size)
{
- struct block_hdr *hdr;
- unsigned int alloc_size;
+ unsigned int alloc_size = size + sizeof(struct block_hdr);
void *ptr;
- alloc_size = size + sizeof(*hdr);
#ifdef SMALLOC_REDZONE
alloc_size += sizeof(unsigned int);
#endif
ptr = __smalloc_pool(pool, alloc_size);
- if (!ptr)
- return NULL;
+ if (ptr) {
+ struct block_hdr *hdr = ptr;
- hdr = ptr;
- hdr->size = alloc_size;
- ptr += sizeof(*hdr);
+ hdr->size = alloc_size;
+ fill_redzone(hdr);
- fill_redzone(hdr);
+ ptr += sizeof(*hdr);
+ memset(ptr, 0, size);
+ }
- memset(ptr, 0, size);
return ptr;
}