//fast_mpool.c #include #include #include #include #include "fast_mpool.h" #include "logger.h" #include "shared_func.h" #include "pthread_func.h" #include "sched_thread.h" int fast_mpool_init(struct fast_mpool_man *mpool, const int alloc_size_once, const int discard_size) { if (alloc_size_once > 0) { mpool->alloc_size_once = alloc_size_once; } else { mpool->alloc_size_once = 1024 * 1024; } if (discard_size > 0) { mpool->discard_size = discard_size; } else { mpool->discard_size = 64; } mpool->malloc_chain_head = NULL; mpool->free_chain_head = NULL; return 0; } static int fast_mpool_prealloc(struct fast_mpool_man *mpool, const int alloc_size) { struct fast_mpool_malloc *pMallocNode; int bytes; bytes = sizeof(struct fast_mpool_malloc) + alloc_size; pMallocNode = (struct fast_mpool_malloc *)malloc(bytes); if (pMallocNode == NULL) { logError("file: "__FILE__", line: %d, " \ "malloc %d bytes fail, " \ "errno: %d, error info: %s", \ __LINE__, bytes, errno, STRERROR(errno)); return errno != 0 ? errno : ENOMEM; } pMallocNode->alloc_size = alloc_size; pMallocNode->base_ptr = (char *)(pMallocNode + 1); pMallocNode->end_ptr = pMallocNode->base_ptr + alloc_size; pMallocNode->free_ptr = pMallocNode->base_ptr; pMallocNode->free_next = mpool->free_chain_head; mpool->free_chain_head = pMallocNode; pMallocNode->malloc_next = mpool->malloc_chain_head; mpool->malloc_chain_head = pMallocNode; return 0; } void fast_mpool_destroy(struct fast_mpool_man *mpool) { struct fast_mpool_malloc *pMallocNode; struct fast_mpool_malloc *pMallocTmp; if (mpool->malloc_chain_head == NULL) { return; } pMallocNode = mpool->malloc_chain_head; while (pMallocNode != NULL) { pMallocTmp = pMallocNode; pMallocNode = pMallocNode->malloc_next; free(pMallocTmp); } mpool->malloc_chain_head = NULL; mpool->free_chain_head = NULL; } static void fast_mpool_remove_free_node(struct fast_mpool_man *mpool, struct fast_mpool_malloc *pMallocNode) { struct fast_mpool_malloc *previous; if (mpool->free_chain_head == pMallocNode) { mpool->free_chain_head = pMallocNode->free_next; return; } previous = mpool->free_chain_head; while (previous->free_next != NULL) { if (previous->free_next == pMallocNode) { previous->free_next = pMallocNode->free_next; return; } previous = previous->free_next; } } static inline void *fast_mpool_do_alloc(struct fast_mpool_man *mpool, struct fast_mpool_malloc *pMallocNode, const int size) { void *ptr; if ((int)(pMallocNode->end_ptr - pMallocNode->free_ptr) >= size) { ptr = pMallocNode->free_ptr; pMallocNode->free_ptr += size; if ((int)(pMallocNode->end_ptr - pMallocNode->free_ptr) <= mpool->discard_size) { fast_mpool_remove_free_node(mpool, pMallocNode); } return ptr; } return NULL; } void *fast_mpool_alloc(struct fast_mpool_man *mpool, const int size) { struct fast_mpool_malloc *pMallocNode; void *ptr; int result; int alloc_size; pMallocNode = mpool->free_chain_head; while (pMallocNode != NULL) { if ((ptr=fast_mpool_do_alloc(mpool, pMallocNode, size)) != NULL) { return ptr; } pMallocNode = pMallocNode->free_next; } if (size < mpool->alloc_size_once) { alloc_size = mpool->alloc_size_once; } else { alloc_size = size; } if ((result=fast_mpool_prealloc(mpool, alloc_size)) == 0) { return fast_mpool_do_alloc(mpool, mpool->free_chain_head, size); } return NULL; } void fast_mpool_reset(struct fast_mpool_man *mpool) { struct fast_mpool_malloc *pMallocNode; mpool->free_chain_head = NULL; pMallocNode = mpool->malloc_chain_head; while (pMallocNode != NULL) { pMallocNode->free_ptr = pMallocNode->base_ptr; pMallocNode->free_next = mpool->free_chain_head; mpool->free_chain_head = pMallocNode; pMallocNode = pMallocNode->malloc_next; } } void fast_mpool_stats(struct fast_mpool_man *mpool, struct fast_mpool_stats *stats) { struct fast_mpool_malloc *pMallocNode; stats->total_bytes = 0; stats->free_bytes = 0; stats->total_trunk_count = 0; stats->free_trunk_count = 0; pMallocNode = mpool->malloc_chain_head; while (pMallocNode != NULL) { stats->total_bytes += pMallocNode->alloc_size; stats->free_bytes += (int)(pMallocNode->end_ptr - pMallocNode->free_ptr); stats->total_trunk_count++; pMallocNode = pMallocNode->malloc_next; } pMallocNode = mpool->free_chain_head; while (pMallocNode != NULL) { stats->free_trunk_count++; pMallocNode = pMallocNode->free_next; } }