/* * Copyright (c) 1997-2012, 2014 Wind River Systems, Inc. * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ /* @file * @brief Memory map kernel services. */ /** * @brief Microkernel Memory Maps * @defgroup microkernel_memorymap Microkernel Memory Maps * @ingroup microkernel_services * @{ */ #ifndef _MEMORY_MAP_H #define _MEMORY_MAP_H #ifdef __cplusplus extern "C" { #endif #include /** * @cond internal */ extern int _task_mem_map_alloc(kmemory_map_t mmap, void **mptr, int32_t time); extern void _task_mem_map_free(kmemory_map_t mmap, void **mptr); /** * @brief Initialize a memory map struct * * @param blocks Number of blocks. * @param block_size Block Size (in bytes). */ #define __K_MEM_MAP_INITIALIZER(blocks, block_size, buffer) \ { \ .Nelms = blocks, \ .element_size = block_size, \ .base = buffer, \ } /** * @endcond */ /** * @brief Read the number of used blocks in a memory map * * This routine returns the number of blocks in use for the memory map. * * @param map Memory map name. * * @return Number of used blocks. */ extern int task_mem_map_used_get(kmemory_map_t map); /** * @brief Return memory map block * * This routine returns a block to the specified memory map. * * @param m Memory map name. * @param p Memory block address. * * @return N/A */ #define task_mem_map_free(m, p) _task_mem_map_free(m, p) /** * @brief Allocate memory map block or fail * * This routine allocates a block from memory map @a m, and saves the block's * address in the area indicated by @a p. If no block is available the routine * immediately returns a failure indication. * * @param m Memory map name. * @param p Pointer to memory block address area. * * @return RC_OK on success, or RC_FAIL on failure. */ #define task_mem_map_alloc(m, p) _task_mem_map_alloc(m, p, TICKS_NONE) /** * @brief Allocate memory map block or wait * * This routine allocates a block from memory map @a m, and saves the block's * address in the area indicated by @a p. If no block is available the routine * waits until one can be allocated. * * @param m Memory map name. * @param p Pointer to memory block address area. * * @return RC_OK. */ #define task_mem_map_alloc_wait(m, p) _task_mem_map_alloc(m, p, TICKS_UNLIMITED) #ifdef CONFIG_SYS_CLOCK_EXISTS /** * @brief Allocate memory map block or timeout * * This routine allocates a block from memory map @a m, and saves the block's * address in the area indicated by @a p. If no block is available the routine * waits until one can be allocated, or until the specified time limit is * reached. * * @param m Memory map name. * @param p Pointer to memory block address area. * @param t Maximum number of ticks to wait. * * @return RC_OK on success, or RC_TIME on timeout. */ #define task_mem_map_alloc_wait_timeout(m, p, t) _task_mem_map_alloc(m, p, t) #endif /** * @brief Define a private microkernel memory map. * * @param name Memory map name. * @param blocks Number of blocks. * @param block_size Size of each block, in bytes. */ #define DEFINE_MEM_MAP(name, blocks, block_size) \ char __noinit __mem_map_buffer_##name[(blocks * block_size)]; \ struct _k_mem_map_struct _k_mem_map_obj_##name = \ __K_MEM_MAP_INITIALIZER(blocks, block_size, \ __mem_map_buffer_##name); \ const kmemory_map_t name \ __in_section(_k_mem_map_ptr, private, mem_map) = \ (kmemory_map_t)&_k_mem_map_obj_##name; #ifdef __cplusplus } #endif #endif /* _MEMORY_MAP_H */ /** * @} */