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Diffstat (limited to '')
-rw-r--r-- | src/nxt_mp.h | 112 |
1 files changed, 112 insertions, 0 deletions
diff --git a/src/nxt_mp.h b/src/nxt_mp.h new file mode 100644 index 00000000..40abc707 --- /dev/null +++ b/src/nxt_mp.h @@ -0,0 +1,112 @@ + +/* + * Copyright (C) Igor Sysoev + * Copyright (C) NGINX, Inc. + */ + +#ifndef _NXT_MP_H_INCLUDED_ +#define _NXT_MP_H_INCLUDED_ + + +/* + * Memory pool keeps track of all allocations so they can be freed at once + * on pool destruction. A memory pool is not thread safe, so only one thread + * must work with the pool. If an allocation should be passed to another + * thread, it should be allocated with nxt_mp_retain() and then should be + * freed with nxt_mp_release(). These functions updates pool retention + * counter. Memory pools decrease number of malloc() and free() calls and + * thus reduces thread contention on locks in malloc library. Memory pools + * allow to make both freeable and non-freeable allocations. The freeable + * memory is allocated in fixed size chunks to decrease memory fragmentaiton + * on reallocations. The non-freeable memory is intended to allocate + * structures and other items which should be available until memory pool + * destruction. Due to allocation strategy described in nxt_mp.c memory pools + * may also improve data cache locality. + */ + +typedef struct nxt_mp_s nxt_mp_t; + + +/* + * nxt_mp_create() creates a memory pool and sets the pool's retention + * counter to 1. + */ +NXT_EXPORT nxt_mp_t *nxt_mp_create(size_t cluster_size, size_t page_alignment, + size_t page_size, size_t min_chunk_size) + NXT_MALLOC_LIKE; + +/* + * nxt_mp_destroy() destroys memory pool in spite of the pool's retention + * counter. + */ +NXT_EXPORT void nxt_mp_destroy(nxt_mp_t *mp); + +/* nxt_mp_test_sizes() tests validity of memory pool parameters. */ +NXT_EXPORT nxt_bool_t nxt_mp_test_sizes(size_t cluster_size, + size_t page_alignment, size_t page_size, size_t min_chunk_size); + +/* nxt_mp_is_empty() tests that pool is empty. */ +NXT_EXPORT nxt_bool_t nxt_mp_is_empty(nxt_mp_t *mp); + + +/* + * nxt_mp_alloc() returns aligned freeable memory. + * The alignment is sutiable to allocate structures. + */ +NXT_EXPORT void *nxt_mp_alloc(nxt_mp_t *mp, size_t size) + NXT_MALLOC_LIKE; + + +/* + * nxt_mp_zalloc() returns zeroed aligned freeable memory. + * The alignment is sutiable to allocate structures. + */ +NXT_EXPORT void *nxt_mp_zalloc(nxt_mp_t *mp, size_t size) + NXT_MALLOC_LIKE; + +/* nxt_mp_align() returns aligned freeable memory. */ +NXT_EXPORT void *nxt_mp_align(nxt_mp_t *mp, size_t alignment, size_t size) + NXT_MALLOC_LIKE; + +/* nxt_mp_zalign() returns zeroed aligned freeable memory. */ +NXT_EXPORT void *nxt_mp_zalign(nxt_mp_t *mp, size_t alignment, size_t size) + NXT_MALLOC_LIKE; + +/* nxt_mp_free() frees freeable memory. */ +NXT_EXPORT void nxt_mp_free(nxt_mp_t *mp, void *p); + + +/* + * nxt_mp_retain() returns aligned freeable memory and increases memory + * pool retention counter. + */ +NXT_EXPORT void *nxt_mp_retain(nxt_mp_t *mp, size_t size) + NXT_MALLOC_LIKE; + +/* + * nxt_mp_release() returns freeable memory and decreases memory pool + * retention counter. If the counter becomes zero the pool is destroyed. + */ +NXT_EXPORT void nxt_mp_release(nxt_mp_t *mp, void *p); + + +/* nxt_mp_nget() returns non-aligned non-freeable memory. */ +NXT_EXPORT void *nxt_mp_nget(nxt_mp_t *mp, size_t size) + NXT_MALLOC_LIKE; + +/* + * nxt_mp_get() returns aligned non-freeable memory. + * The alignment is sutiable to allocate structures. + */ +NXT_EXPORT void *nxt_mp_get(nxt_mp_t *mp, size_t size) + NXT_MALLOC_LIKE; + +/* + * nxt_mp_zget() returns zeroed aligned non-freeable memory. + * The alignment is sutiable to allocate structures. + */ +NXT_EXPORT void *nxt_mp_zget(nxt_mp_t *mp, size_t size) + NXT_MALLOC_LIKE; + + +#endif /* _NXT_MP_H_INCLUDED_ */ |