X-Git-Url: https://git.kernel.dk/?p=fio.git;a=blobdiff_plain;f=smalloc.c;h=6cbf59cf320a0eb0fcf1bf9166f6b581bfe0c983;hp=b21a03d96f168af2c42c57d7fcae1c37c99fbd0d;hb=697a606cc0af1c39ac18998c344a522199accb36;hpb=136f6b79180f6bd3f3e9ec8a97b9636a1bb71e15 diff --git a/smalloc.c b/smalloc.c index b21a03d9..6cbf59cf 100644 --- a/smalloc.c +++ b/smalloc.c @@ -12,24 +12,40 @@ #include #include "mutex.h" +#include "lib/ffz.h" -#define MP_SAFE /* define to made allocator thread safe */ +#define MP_SAFE /* define to make thread safe */ +#define SMALLOC_REDZONE /* define to detect memory corruption */ -#define INITIAL_SIZE 1048576 /* new pool size */ -#define MAX_POOLS 32 /* maximum number of pools to setup */ +#define SMALLOC_BPB 32 /* block size, bytes-per-bit in bitmap */ +#define SMALLOC_BPI (sizeof(unsigned int) * 8) +#define SMALLOC_BPL (SMALLOC_BPB * SMALLOC_BPI) + +#define INITIAL_SIZE 1024*1024 /* new pool size */ +#define MAX_POOLS 4 /* maximum number of pools to setup */ + +#define SMALLOC_PRE_RED 0xdeadbeefU +#define SMALLOC_POST_RED 0x5aa55aa5U unsigned int smalloc_pool_size = INITIAL_SIZE; struct pool { struct fio_mutex *lock; /* protects this pool */ void *map; /* map of blocks */ - void *last; /* next free block hint */ - unsigned int size; /* size of pool */ - unsigned int room; /* size left in pool */ - unsigned int largest_block; /* largest block free */ - unsigned int free_since_compact; /* sfree() since compact() */ + unsigned int *bitmap; /* blocks free/busy map */ + unsigned int free_blocks; /* free blocks */ + unsigned int nr_blocks; /* total blocks */ + unsigned int next_non_full; int fd; /* memory backing fd */ char file[PATH_MAX]; /* filename for fd */ + unsigned int mmap_size; +}; + +struct block_hdr { + unsigned int size; +#ifdef SMALLOC_REDZONE + unsigned int prered; +#endif }; static struct pool mp[MAX_POOLS]; @@ -37,10 +53,6 @@ static unsigned int nr_pools; static unsigned int last_pool; static struct fio_mutex *lock; -struct mem_hdr { - unsigned int size; -}; - static inline void pool_lock(struct pool *pool) { if (pool->lock) @@ -77,124 +89,134 @@ static inline void global_write_unlock(void) fio_mutex_up_write(lock); } -#define hdr_free(hdr) ((hdr)->size & 0x80000000) -#define hdr_size(hdr) ((hdr)->size & ~0x80000000) -#define hdr_mark_free(hdr) ((hdr)->size |= 0x80000000) - static inline int ptr_valid(struct pool *pool, void *ptr) { - return (ptr >= pool->map) && (ptr < pool->map + pool->size); -} + unsigned int pool_size = pool->nr_blocks * SMALLOC_BPL; -static inline int __hdr_valid(struct pool *pool, struct mem_hdr *hdr, - unsigned int size) -{ - return ptr_valid(pool, hdr) && ptr_valid(pool, (void *) hdr + size - 1); + return (ptr >= pool->map) && (ptr < pool->map + pool_size); } -static inline int hdr_valid(struct pool *pool, struct mem_hdr *hdr) +static inline unsigned int size_to_blocks(unsigned int size) { - return __hdr_valid(pool, hdr, hdr_size(hdr)); + return (size + SMALLOC_BPB - 1) / SMALLOC_BPB; } -static inline int region_free(struct mem_hdr *hdr) +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)) { - return hdr_free(hdr) || (!hdr_free(hdr) && !hdr_size(hdr)); -} -static inline struct mem_hdr *__hdr_nxt(struct pool *pool, struct mem_hdr *hdr, - unsigned int size) -{ - struct mem_hdr *nxt = (void *) hdr + size + sizeof(*hdr); + while (nr_blocks) { + unsigned int this_blocks, mask; + unsigned int *map; - if (__hdr_valid(pool, nxt, size)) - return nxt; + if (pool_idx >= pool->nr_blocks) + return 0; - return NULL; -} + map = &pool->bitmap[pool_idx]; -static inline struct mem_hdr *hdr_nxt(struct pool *pool, struct mem_hdr *hdr) -{ - return __hdr_nxt(pool, hdr, hdr_size(hdr)); -} + this_blocks = nr_blocks; + if (this_blocks + idx > SMALLOC_BPI) { + this_blocks = SMALLOC_BPI - idx; + idx = SMALLOC_BPI - this_blocks; + } -static void merge(struct pool *pool, struct mem_hdr *hdr, struct mem_hdr *nxt) -{ - unsigned int hfree = hdr_free(hdr); - unsigned int nfree = hdr_free(nxt); + if (this_blocks == SMALLOC_BPI) + mask = -1U; + else + mask = ((1U << this_blocks) - 1) << idx; - hdr->size = hdr_size(hdr) + hdr_size(nxt) + sizeof(*nxt); - nxt->size = 0; + if (!func(map, mask)) + return 0; - if (hfree) - hdr_mark_free(hdr); - if (nfree) - hdr_mark_free(nxt); + nr_blocks -= this_blocks; + idx = 0; + pool_idx++; + } - if (pool->last == nxt) - pool->last = hdr; + return 1; } -static int combine(struct pool *pool, struct mem_hdr *prv, struct mem_hdr *hdr) +static int mask_cmp(unsigned int *map, unsigned int mask) { - if (prv && hdr_free(prv) && hdr_free(hdr)) { - merge(pool, prv, hdr); - return 1; - } + return !(*map & mask); +} - return 0; +static int mask_clear(unsigned int *map, unsigned int mask) +{ + assert((*map & mask) == mask); + *map &= ~mask; + return 1; } -static int compact_pool(struct pool *pool) +static int mask_set(unsigned int *map, unsigned int mask) { - struct mem_hdr *hdr = pool->map, *nxt; - unsigned int compacted = 0; + assert(!(*map & mask)); + *map |= mask; + return 1; +} - if (pool->free_since_compact < 50) - return 1; +static int blocks_free(struct pool *pool, unsigned int pool_idx, + unsigned int idx, unsigned int nr_blocks) +{ + return blocks_iter(pool, pool_idx, idx, nr_blocks, mask_cmp); +} - while (hdr) { - nxt = hdr_nxt(pool, hdr); - if (!nxt) - break; - if (hdr_free(nxt) && hdr_free(hdr)) { - merge(pool, hdr, nxt); - compacted++; - continue; - } - hdr = hdr_nxt(pool, hdr); - } +static void set_blocks(struct pool *pool, unsigned int pool_idx, + unsigned int idx, unsigned int nr_blocks) +{ + blocks_iter(pool, pool_idx, idx, nr_blocks, mask_set); +} + +static void clear_blocks(struct pool *pool, unsigned int pool_idx, + unsigned int idx, unsigned int nr_blocks) +{ + blocks_iter(pool, pool_idx, idx, nr_blocks, mask_clear); +} - pool->free_since_compact = 0; - return !!compacted; +static int find_next_zero(int word, int start) +{ + assert(word != -1U); + word >>= (start + 1); + return __ffs(~word) + start + 1; } static int add_pool(struct pool *pool, unsigned int alloc_size) { - struct mem_hdr *hdr; void *ptr; - int fd; + int fd, bitmap_blocks; strcpy(pool->file, "/tmp/.fio_smalloc.XXXXXX"); fd = mkstemp(pool->file); if (fd < 0) goto out_close; - alloc_size += sizeof(*hdr); - if (alloc_size > smalloc_pool_size) - pool->size = alloc_size; - else - pool->size = smalloc_pool_size; - - if (ftruncate(fd, pool->size) < 0) +#ifdef SMALLOC_REDZONE + alloc_size += sizeof(unsigned int); +#endif + alloc_size += sizeof(struct block_hdr); + if (alloc_size < INITIAL_SIZE) + alloc_size = INITIAL_SIZE; + + /* round up to nearest full number of blocks */ + alloc_size = (alloc_size + SMALLOC_BPL - 1) & ~(SMALLOC_BPL - 1); + bitmap_blocks = alloc_size / SMALLOC_BPL; + alloc_size += bitmap_blocks * sizeof(unsigned int); + pool->mmap_size = alloc_size; + + pool->nr_blocks = bitmap_blocks; + pool->free_blocks = bitmap_blocks * SMALLOC_BPB; + + if (ftruncate(fd, alloc_size) < 0) goto out_unlink; - ptr = mmap(NULL, pool->size, PROT_READ|PROT_WRITE, MAP_SHARED, fd, 0); + ptr = mmap(NULL, alloc_size, PROT_READ|PROT_WRITE, MAP_SHARED, fd, 0); if (ptr == MAP_FAILED) goto out_unlink; - memset(ptr, 0, pool->size); - pool->map = pool->last = ptr; + memset(ptr, 0, alloc_size); + pool->map = ptr; + pool->bitmap = (void *) ptr + (pool->nr_blocks * SMALLOC_BPL); #ifdef MP_SAFE pool->lock = fio_mutex_init(1); @@ -204,17 +226,14 @@ static int add_pool(struct pool *pool, unsigned int alloc_size) pool->fd = fd; - hdr = pool->map; - pool->room = hdr->size = pool->size - sizeof(*hdr); - pool->largest_block = pool->room; - hdr_mark_free(hdr); global_write_lock(); nr_pools++; global_write_unlock(); return 0; out_unlink: + fprintf(stderr, "smalloc: failed adding pool\n"); if (pool->map) - munmap(pool->map, pool->size); + munmap(pool->map, pool->mmap_size); unlink(pool->file); out_close: if (fd >= 0) @@ -237,7 +256,7 @@ static void cleanup_pool(struct pool *pool) { unlink(pool->file); close(pool->fd); - munmap(pool->map, pool->size); + munmap(pool->map, pool->mmap_size); if (pool->lock) fio_mutex_remove(pool->lock); @@ -254,29 +273,67 @@ void scleanup(void) fio_mutex_remove(lock); } +#ifdef SMALLOC_REDZONE +static void fill_redzone(struct block_hdr *hdr) +{ + unsigned int *postred = (void *) hdr + hdr->size - sizeof(unsigned int); + + hdr->prered = SMALLOC_PRE_RED; + *postred = SMALLOC_POST_RED; +} + +static void sfree_check_redzone(struct block_hdr *hdr) +{ + unsigned int *postred = (void *) hdr + hdr->size - sizeof(unsigned int); + + if (hdr->prered != SMALLOC_PRE_RED) { + fprintf(stderr, "smalloc pre redzone destroyed!\n"); + fprintf(stderr, " ptr=%p, prered=%x, expected %x\n", + hdr, hdr->prered, SMALLOC_PRE_RED); + assert(0); + } + if (*postred != SMALLOC_POST_RED) { + fprintf(stderr, "smalloc post redzone destroyed!\n"); + fprintf(stderr, " ptr=%p, postred=%x, expected %x\n", + hdr, *postred, SMALLOC_POST_RED); + assert(0); + } +} +#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) { - struct mem_hdr *hdr, *nxt; + struct block_hdr *hdr; + unsigned int i, idx; + unsigned long offset; if (!ptr) return; - assert(ptr_valid(pool, ptr)); + ptr -= sizeof(*hdr); + hdr = ptr; - pool_lock(pool); - hdr = ptr - sizeof(*hdr); - assert(!hdr_free(hdr)); - hdr_mark_free(hdr); - pool->room -= hdr_size(hdr); + assert(ptr_valid(pool, ptr)); - nxt = hdr_nxt(pool, hdr); - if (nxt && hdr_free(nxt)) - merge(pool, hdr, nxt); + sfree_check_redzone(hdr); - if (hdr_size(hdr) > pool->largest_block) - pool->largest_block = hdr_size(hdr); + offset = ptr - pool->map; + i = offset / SMALLOC_BPL; + idx = (offset % SMALLOC_BPL) / SMALLOC_BPB; - pool->free_since_compact++; + pool_lock(pool); + 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); pool_unlock(pool); } @@ -303,81 +360,82 @@ void sfree(void *ptr) sfree_pool(pool, ptr); } -static void *smalloc_pool(struct pool *pool, unsigned int size) +static void *__smalloc_pool(struct pool *pool, unsigned int size) { - struct mem_hdr *hdr, *prv; - int did_restart = 0; - void *ret; - - if (!size) - return NULL; + unsigned int nr_blocks; + unsigned int i; + unsigned int offset; + unsigned int last_idx; + void *ret = NULL; pool_lock(pool); - if (size > pool->room + sizeof(*hdr)) - goto fail; - if ((size > pool->largest_block) && pool->largest_block) + + nr_blocks = size_to_blocks(size); + if (nr_blocks > pool->free_blocks) goto fail; -restart: - hdr = pool->last; - prv = NULL; - do { - if (combine(pool, prv, hdr)) - hdr = prv; - if (hdr_free(hdr) && hdr_size(hdr) >= size) - break; + i = pool->next_non_full; + last_idx = 0; + offset = -1U; + while (i < pool->nr_blocks) { + unsigned int idx; - prv = hdr; - } while ((hdr = hdr_nxt(pool, hdr)) != NULL); + if (pool->bitmap[i] == -1U) { + i++; + pool->next_non_full = i; + last_idx = 0; + continue; + } - if (!hdr) - goto fail; + idx = find_next_zero(pool->bitmap[i], last_idx); + if (!blocks_free(pool, i, idx, nr_blocks)) { + idx += nr_blocks; + if (idx < SMALLOC_BPI) + last_idx = idx; + else { + last_idx = 0; + while (idx >= SMALLOC_BPI) { + i++; + idx -= SMALLOC_BPI; + } + } + continue; + } + set_blocks(pool, i, idx, nr_blocks); + offset = i * SMALLOC_BPL + idx * SMALLOC_BPB; + break; + } - /* - * more room, adjust next header if any - */ - if (hdr_size(hdr) - size >= 2 * sizeof(*hdr)) { - struct mem_hdr *nxt = __hdr_nxt(pool, hdr, size); - - if (nxt) { - nxt->size = hdr_size(hdr) - size - sizeof(*hdr); - if (hdr_size(hdr) == pool->largest_block) - pool->largest_block = hdr_size(nxt); - hdr_mark_free(nxt); - } else - size = hdr_size(hdr); - } else - size = hdr_size(hdr); - - if (size == hdr_size(hdr) && size == pool->largest_block) - pool->largest_block = 0; - - /* - * also clears free bit - */ - hdr->size = size; - pool->last = hdr_nxt(pool, hdr); - if (!pool->last) - pool->last = pool->map; - pool->room -= size; + if (i < pool->nr_blocks) { + pool->free_blocks -= nr_blocks; + ret = pool->map + offset; + } +fail: pool_unlock(pool); - - ret = (void *) hdr + sizeof(*hdr); - memset(ret, 0, size); return ret; -fail: - /* - * if we fail to allocate, first compact the entries that we missed. - * if that also fails, increase the size of the pool - */ - if (++did_restart <= 1) { - if (!compact_pool(pool)) { - pool->last = pool->map; - goto restart; - } +} + +static void *smalloc_pool(struct pool *pool, unsigned int size) +{ + unsigned int alloc_size = size + sizeof(struct block_hdr); + void *ptr; + +#ifdef SMALLOC_REDZONE + alloc_size += sizeof(unsigned int); +#endif + + ptr = __smalloc_pool(pool, alloc_size); + if (ptr) { + struct block_hdr *hdr = ptr; + + hdr->size = alloc_size; + fill_redzone(hdr); + + ptr += sizeof(*hdr); + memset(ptr, 0, size); } - pool_unlock(pool); - return NULL; + + return ptr; } void *smalloc(unsigned int size) @@ -402,7 +460,7 @@ void *smalloc(unsigned int size) continue; } - if (nr_pools + 1 >= MAX_POOLS) + if (nr_pools + 1 > MAX_POOLS) break; else { i = nr_pools;