/* -*- Mode: C; tab-width: 4; c-basic-offset: 4; indent-tabs-mode: nil -*- */ #include #include #include #ifndef NDEBUG #include #endif #include "cache.h" #ifndef NDEBUG const uint64_t redzone_pattern = 0xdeadbeefcafebabe; int cache_error = 0; #endif const int initial_pool_size = 64; cache_t* cache_create(const char *name, size_t bufsize, size_t align, cache_constructor_t* constructor, cache_destructor_t* destructor) { cache_t* ret = calloc(1, sizeof(cache_t)); char* nm = strdup(name); void** ptr = calloc(initial_pool_size, sizeof(void*)); if (ret == NULL || nm == NULL || ptr == NULL || pthread_mutex_init(&ret->mutex, NULL) == -1) { free(ret); free(nm); free(ptr); return NULL; } ret->name = nm; ret->ptr = ptr; ret->freetotal = initial_pool_size; ret->constructor = constructor; ret->destructor = destructor; #ifndef NDEBUG ret->bufsize = bufsize + 2 * sizeof(redzone_pattern); #else ret->bufsize = bufsize; #endif return ret; } static inline void* get_object(void *ptr) { #ifndef NDEBUG uint64_t *pre = ptr; return pre + 1; #else return ptr; #endif } void cache_destroy(cache_t *cache) { while (cache->freecurr > 0) { void *ptr = cache->ptr[--cache->freecurr]; if (cache->destructor) { cache->destructor(get_object(ptr), NULL); } free(ptr); } free(cache->name); free(cache->ptr); pthread_mutex_destroy(&cache->mutex); free(cache); } void* cache_alloc(cache_t *cache) { void *ret; pthread_mutex_lock(&cache->mutex); ret = do_cache_alloc(cache); pthread_mutex_unlock(&cache->mutex); return ret; } void* do_cache_alloc(cache_t *cache) { void *ret; void *object; if (cache->freecurr > 0) { ret = cache->ptr[--cache->freecurr]; object = get_object(ret); } else { object = ret = malloc(cache->bufsize); if (ret != NULL) { object = get_object(ret); if (cache->constructor != NULL && cache->constructor(object, NULL, 0) != 0) { free(ret); object = NULL; } } } #ifndef NDEBUG if (object != NULL) { /* add a simple form of buffer-check */ uint64_t *pre = ret; *pre = redzone_pattern; ret = pre+1; memcpy(((char*)ret) + cache->bufsize - (2 * sizeof(redzone_pattern)), &redzone_pattern, sizeof(redzone_pattern)); } #endif return object; } void cache_free(cache_t *cache, void *ptr) { pthread_mutex_lock(&cache->mutex); do_cache_free(cache, ptr); pthread_mutex_unlock(&cache->mutex); } void do_cache_free(cache_t *cache, void *ptr) { #ifndef NDEBUG /* validate redzone... */ if (memcmp(((char*)ptr) + cache->bufsize - (2 * sizeof(redzone_pattern)), &redzone_pattern, sizeof(redzone_pattern)) != 0) { raise(SIGABRT); cache_error = 1; return; } uint64_t *pre = ptr; --pre; if (*pre != redzone_pattern) { raise(SIGABRT); cache_error = -1; return; } ptr = pre; #endif if (cache->freecurr < cache->freetotal) { cache->ptr[cache->freecurr++] = ptr; } else { /* try to enlarge free connections array */ size_t newtotal = cache->freetotal * 2; void **new_free = realloc(cache->ptr, sizeof(char *) * newtotal); if (new_free) { cache->freetotal = newtotal; cache->ptr = new_free; cache->ptr[cache->freecurr++] = ptr; } else { if (cache->destructor) { cache->destructor(ptr, NULL); } free(ptr); } } }