/* -*- Mode: C; tab-width: 4; c-basic-offset: 4; indent-tabs-mode: nil -*- */ #ifndef CACHE_H #define CACHE_H #include #ifdef HAVE_UMEM_H #include #define cache_t umem_cache_t #define cache_alloc(a) umem_cache_alloc(a, UMEM_DEFAULT) #define do_cache_alloc(a) umem_cache_alloc(a, UMEM_DEFAULT) #define cache_free(a, b) umem_cache_free(a, b) #define do_cache_free(a, b) umem_cache_free(a, b) #define cache_create(a,b,c,d,e) umem_cache_create((char*)a, b, c, d, e, NULL, NULL, NULL, 0) #define cache_destroy(a) umem_cache_destroy(a); #else #ifndef NDEBUG /* may be used for debug purposes */ extern int cache_error; #endif /** * Constructor used to initialize allocated objects * * @param obj pointer to the object to initialized. * @param notused1 This parameter is currently not used. * @param notused2 This parameter is currently not used. * @return you should return 0, but currently this is not checked */ typedef int cache_constructor_t(void* obj, void* notused1, int notused2); /** * Destructor used to clean up allocated objects before they are * returned to the operating system. * * @param obj pointer to the object to clean up. * @param notused This parameter is currently not used. * @return you should return 0, but currently this is not checked */ typedef void cache_destructor_t(void* obj, void* notused); /** * Definition of the structure to keep track of the internal details of * the cache allocator. Touching any of these variables results in * undefined behavior. */ typedef struct { /** Mutex to protect access to the structure */ pthread_mutex_t mutex; /** Name of the cache objects in this cache (provided by the caller) */ char *name; /** List of pointers to available buffers in this cache */ void **ptr; /** The size of each element in this cache */ size_t bufsize; /** The capacity of the list of elements */ int freetotal; /** The current number of free elements */ int freecurr; /** The constructor to be called each time we allocate more memory */ cache_constructor_t* constructor; /** The destructor to be called each time before we release memory */ cache_destructor_t* destructor; } cache_t; /** * Create an object cache. * * The object cache will let you allocate objects of the same size. It is fully * MT safe, so you may allocate objects from multiple threads without having to * do any synchronization in the application code. * * @param name the name of the object cache. This name may be used for debug purposes * and may help you track down what kind of object you have problems with * (buffer overruns, leakage etc) * @param bufsize the size of each object in the cache * @param align the alignment requirements of the objects in the cache. * @param constructor the function to be called to initialize memory when we need * to allocate more memory from the os. * @param destructor the function to be called before we release the memory back * to the os. * @return a handle to an object cache if successful, NULL otherwise. */ cache_t* cache_create(const char* name, size_t bufsize, size_t align, cache_constructor_t* constructor, cache_destructor_t* destructor); /** * Destroy an object cache. * * Destroy and invalidate an object cache. You should return all buffers allocated * with cache_alloc by using cache_free before calling this function. Not doing * so results in undefined behavior (the buffers may or may not be invalidated) * * @param handle the handle to the object cache to destroy. */ void cache_destroy(cache_t* handle); /** * Allocate an object from the cache. * * @param handle the handle to the object cache to allocate from * @return a pointer to an initialized object from the cache, or NULL if * the allocation cannot be satisfied. */ void* cache_alloc(cache_t* handle); void* do_cache_alloc(cache_t* handle); /** * Return an object back to the cache. * * The caller should return the object in an initialized state so that * the object may be returned in an expected state from cache_alloc. * * @param handle handle to the object cache to return the object to * @param ptr pointer to the object to return. */ void cache_free(cache_t* handle, void* ptr); void do_cache_free(cache_t* handle, void* ptr); #endif #endif